Hayes command set

Hayes command set

The Hayes command set is a specific command-language originally developed for the Hayes Smartmodem 300 baud modem in 1981. The command set consists of a series of short text strings which combine together to produce complete commands for operations such as dialing, hanging up, and changing the parameters of the connection. Most dialup modems follow the specifications of the Hayes command set.




Prior to the introduction of the Bulletin Board System (BBS), modems typically operated on direct-dial telephone lines that always began and ended with a particular modem at each end. The modems operated in either "originate" or "answer" modes, and generally the user would dial the phone manually before connecting, or pick it up if it rang. Answering was relatively easy to automate, picking up the phone when it rang. To automate outbound calls, a separate peripheral device, a "dialler", could be plugged into a different input/output port on the computer (typically an RS-232 port).

This method of operation worked satisfactorily in the 1960s and early 1970s, when modems were generally used to connect dumb devices like computer terminals with smart mainframe computers. However, the microcomputer revolution of the 1970s led to the introduction of low-cost modems and the idea of a semi-dedicated point-to-point link was no longer appropriate. There were potentially thousands of users who might want to dial any of the other thousands of users, and the only solution at the time was to make the user dial manually.

The computer industry needed a way to tell the modem what number to dial through software. The earlier separate dialers had this capability, but only at the cost of a separate port, which a microcomputer might not have available. One solution could have used a separate set of "command pins" dedicated to sending and receiving commands, another could have used a signal pin indicating that the modem should interpret incoming data as a command. But both of these suffered from the problems that these pins might not be available, or connected, in many microcomputers.

Hayes' solution

Hayes Communications introduced a solution in its 1981 Smartmodem by re-using the existing data pins with no modification. Instead, the modem itself could switch itself between one of two modes:

  1. data mode in which the modem sends the data to the remote modem. (A modem in data mode treats everything it receives from the computer as data and sends it across the phone line).
  2. command mode in which data is interpreted as commands to the local modem (commands that the local modem should execute).

To switch from data mode to command mode, sessions sent an escape sequence string of three plus signs ("+++") followed by a pause of about a second (to go to the command mode without losing the connection); and to switch back they sent the online command, O. In actual use many of the commands automatically switched to the online mode after completion, and it is rare for a user to use the online command explicitly.

This use of In-band signaling leads to a potential serious problem: what happens if the data sent in data-mode contains three consecutive plus signs? This could happen randomly quite easily, and it would happen any time someone attempted to send data describing the system – this document for instance. In order to reduce the chance of this problem the pause at the end of the escape sequence was required, if any other data was received within one second of the three plus signs, it was not the escape sequence and would be sent as data.


The Hayes command set includes commands for various phone-line manipulations, dialing and hanging-up for instance. It also includes various controls to set up the modem, including a set of register commands which allowed the user to directly set the various memory locations in the original Hayes modem. The command set was copied largely verbatim, including the meaning of the registers, by almost all early 300 baud modem manufacturers, of which there were quite a few.

The expansion to 1200 and 2400 baud required the addition of a small set of new commands, some of them prefixed with an ampersand ("&") to denote those dedicated to new functionality. Hayes themselves were forced to quickly introduce a 2400 baud model shortly after their 1200, and the command sets were identical as a time-saving method.[1] Essentially by accident, this allowed users of existing 1200 baud modems to use the new Hayes 2400 models without changing their software. This re-inforced the use of the Hayes versions of these commands. Years later, the TIA/EIA raised the 2400-baud command set into a formal standard with the title Data Transmission Systems and Equipment - Serial Asynchronous Automatic Dialing and Control, TIA/EIA-602.

However Hayes Communications moved only slowly to higher speeds or the use of compression, and three other companies led the way here – Microcom, U.S. Robotics and Telebit. Each of these three used its own additional command-sets instead of waiting for Hayes to lead the way. By the early-1990s there were four major command sets in use, and a number of versions based on one of these. Things became simpler again during the widespread introduction of 14.4 and 28.8 kbit/s modems in the early 1990s. Slowly a set of commands based heavily on the original Hayes extended set using "&" commands became popular, and then universal. Only one other command set has remained popular, the US Robotics set from their popular line of modems.


The following text lists part of the Hayes command set (also called the AT commands: "AT" meaning attention).

The Hayes command set can subdivide into four groups:

  1. basic command set - A capital character followed by a digit. For example, M1.
  2. extended command set - An “&” (ampersand) and a capital character followed by a digit. This extends the basic command set. For example, &M1. Note that M1 is different from &M1.
  3. proprietary command set - Usually starting either with a backslash (“\”) or with a percent sign (“%”); these commands vary widely among modem-manufacturers.
  4. register commands - Sr=n where r is the number of the register to be changed, and n is the new value that is assigned.

A register represents a specific physical location in memory. Modems have small amounts of memory onboard. The fourth set of commands serves for entering values into a particular register (memory location). The register will store a particular variable (alpha-numeric information) which the modem and the communications software can utilize. For example, S7=60 instructs the computer to "Set register #7 to the value 60".

Although the command-set syntax defines most commands by a letter-number combination (L0, L1 etc.), the use of a zero is optional. In this example, "L0" equates to a plain "L". Keep this in mind when reading the table below.

When in data-mode an escape sequence can return the modem to command mode. The normal escape sequence is three plus signs ("+++"), and to disambiguate it from possible real data, a guard timer is used: it must be preceded by a pause, not have any pauses between the plus signs, and be followed by a pause; by default a "pause" is one second and "no pause" is anything less.

Syntactical definitions

The following syntactical definitions apply:[2]

  • <CR> Carriage return character, is the command line and result code terminator character, which value, in decimal ASCII between 0 and 255,is specified within parameter S3. The default value is 13.
  • <LF> Linefeed character, is the character recognised as line feed character. Its value, in decimal ASCII between 0 and 255, is specified within parameter S4. The default value is 10. The line feed character is output after carriage return character if verbose result codes are used (V1 option used ) otherwise, if numeric format result codes are used (V0 option used) it will not appear in the result codes.
  • <...> Name enclosed in angle brackets is a syntactical element. They do not appear in the command line.
  • [...] Optional subparameter of a command or an optional part of TA information response is enclosed in square brackets. Brackets themselves do not appear in the command line. When subparameter is not given in AT commands which have a Read command, new value equals to its previous value. In AT commands which do not store the values of any of their subparameters, and so have not a Read command, which are called action type commands, action should be done on the basis of the recommended default setting of the subparameter.

Modem initialization

A string can contain many Hayes commands placed together, so as to optimally prepare the modem to dial out or answer, e.g. AT&F&D2&C1S0=0X4. This is called the initialization string.[3] The V.250 specification requires all DCEs to accept a body (after "AT") of at least 40 characters of concatenated commands.[4]

Example session

The following represents two computers, computer A and computer B, both with modems attached, and the user controlling the modems with terminal-emulator software. Terminal-emulator software typically allows the user to send Hayes commands directly to the modem, and to see the responses. In this example, the user of computer A makes the modem dial the phone number of modem B at phone number 555-1234. Note that after every command and response, there is a carriage return sent to complete the command.

Modem A Modem B Comment
ATDT15551234 User at modem A issues a dial command.
RING Modem A begins dialing. Modem B's phone-line rings, and the modem reports the fact.
ATA Computer at modem B issues answer command.
CONNECT CONNECT The modems connect, and both modems report "connect". (In practice, most modems report more information after the word CONNECT — specifying the speed of the connection.) Also, at this time, both modems will raise the DCD, or Data Carrier Detect signal, on the serial port.
abcdef abcdef When the modems are connected, any characters typed at either side will appear on the other side. The person at computer A starts typing. The characters pass through the modem and appear on computer B's screen. (User A may not see his own typed characters — depending on the terminal software's local echo setting).
+++ The person at computer B issues the modem escape command. (Alternately, and more commonly, the computer B could drop the DTR, or Data Terminal Ready signal, to achieve a hangup, without needing to use +++ or ATH.)
OK The modem acknowledges it.
ATH The person at computer B issues a hang up command.
NO CARRIER OK Both modems report that the connection has ended. Modem B responds "OK" as the expected result of the command; modem A says NO CARRIER to report that the remote side interrupted the connection. The modems on both sides drop their DCD signals as well.


While the original Hayes command set represented a huge leap forward in modem-based communications, with time many problems set in, almost none of them due to Hayes per se:

  • Due to the lack of a written standard, other modem manufacturers just copied the external visible commands and (roughly) the basic actions. This led to a wide variety of subtle differences in how modems changed from state to state, and how they handled error conditions, hangups, and timeouts.
  • Each manufacturer tended to add new commands to handle emerging needs, often incompatible with other modems.

For example, setting up hardware or software handshaking often required many different commands for different modems. This undermined the handy universality of the basic "AT" command-set.

  • Many "Hayes-compatible" modems had serious quirks that made them effectively incompatible. For example, many modems required a pause of several seconds after receiving the "AT Z" reset command. Some modems required spaces between commands, while others did not. Some would unhelpfully change baud-rate of their own "volition", which would leave the computer with no clue how to handle the incoming bits.

As a result of all this, eventually many communications programs had to give up any sense of being able to talk to all "Hayes-compatible" modems, and instead the programs had to try to determine the modem type from its responses, or provide the user with some option whereby they could enter whatever special commands it took to coerce their particular modem into acting properly.

The basic Hayes command set

The following commands are understood by virtually all modems supporting an AT command set, whether old or new.

Command Description Comments
A0 or A Answer incoming call  
A/ Repeat last command Don't preface with AT, don't follow with carriage return. Enter usually aborts.
D Dial

Dial the following number and then handshake

P - Pulse Dial
T - Touch Tone Dial
W - Wait for the second dial tone
R - Reverse to answer-mode after dialing
@ - Wait for up to 30 seconds for one or more ringbacks
, - Pause for the time specified in register S8 (usually 2 seconds)
; - Remain in command mode after dialing.
! - Flash switch-hook (Hang up for a half second, as in transferring a call.)
L - Dial last number

E0 or E No Echo Will not echo commands to the computer
E1 Echo Will echo commands to the computer (so one can see what one types)
H0 Hook Status On hook. Hangs up the phone, ending any call in progress.
H1 Hook status Off hook. Picks up the phone line (typically you'll hear a dialtone)
I0 to I9 Inquiry, Information, or Interrogation This command returns information about the model, such as its firmware or brand name. Each number (0 to 9, and sometimes 10 and above) returns one line of modem-specific information, or the word ERROR if the line isn't defined. Today, Windows uses this for Plug-and-play detection of specific modem types.
L0 or Ln (n=1 to 3) Speaker Loudness. Supported only by some modems, usually external ones. Modems lacking speakers, or with physical volume controls, or ones whose sound output is piped through the sound card will not support this command. Off or low volume
M0 or M Speaker off, completely silent during dialing M3 is also common, but different on many brands
M1 Speaker on until remote carrier detected (i.e. until the other modem is heard)
M2 Speaker always on (data sounds are heard after CONNECT)
O Return Online Returns the modem back to the normal connected state after being interrupted by the "+++" escape code.
Q0 or Q Quiet Mode Off - Displays result codes, user sees command responses (e.g. OK)
Q1 Quiet Mode On - Result codes are suppressed, user does not see responses.
Sn Select current register

Note that Sn, ? and =r are actually three separate commands, and can be given in separate AT commands.

Select register n as the current register
Sn? Select register n as the current register, and query its value. Using ? on its own will query whichever register was most recently selected.
Sn=r Select register n as the current register, and store r in it. Using =r on its own will store into whichever register was most recently selected.
V0 or V Verbose Numeric result codes
V1 English result codes (e.g. CONNECT, BUSY, NO CARRIER etc.)
X0 or X Smartmodem Hayes Smartmodem 300 compatible result codes
X1 Usually adds connection speed to basic result codes (e.g. CONNECT 1200)
X2 Usually adds dial tone detection (preventing blind dial, and sometimes preventing ATO)
X3 Usually adds busy signal detection.
X4 Usually adds both busy signal and dial tone detection
Z0 or Z Reset Reset modem to stored configuration. Use Z0, Z1etc. for multiple profiles. This is the same as &F for factory default on modems without NVRAM (non volatile memory)

Note: a command string is terminated with a CR (\r) character

Modem S register definitions

Register Description Range Default value
S0 Number of rings before Auto-Answer 0–0 never 0
S1 Ring Counter 0–255 rings 0
S2 Escape character 0–255, ASCII decimal 43
S3 Carriage Return Character 0–127, ASCII decimal 13 (Carriage Return)
S4 Line Feed Character 0–127, ASCII decimal 10 (Line Feed)
S5 Backspace Character 0–32, ASCII decimal 8 (Backspace)
S6 Wait Time before Blind Dialing 2–255 seconds 2
S7 Wait for Carrier after Dial 1–255 seconds 50
S8 Pause Time for Comma (Dial Delay) 0–255 seconds 2
S9 Carrier Detect Response Time 1–255 tenths of a seconds 6 (0.6 second)
S10 Delay between Loss of Carrier and Hang-Up 1–255 tenths of a second 14 (1.4 seconds)
S11 DTMF Tone Duration 50–255 milliseconds 95 milliseconds
S12 Escape Code Guard Time 0–255 fiftieths of a second 50 (1 second)
S18 Test Timer 0–255 seconds 0 seconds
S25 Delay to DTR 0–255 (seconds if sychronous mode, hundredths of a second in all other modes) 5
S26 RTS to CTS Delay Interval 0–255 hundredths of a second 1 hundredth of a second
S30 Inactivity Disconnect Timer 0–255 tens of seconds 0 (disable)
S37 Desired Telco Line Speed 0–10

Command options:

  • 0 Attempt auto mode connection
  • 1 Attempt to connect at 300 bit/s
  • 2 Attempt to connect at 300 bit/s
  • 3 Attempt to connect at 300 bit/s
  • 5 Attempt to connect at 1200 bit/s
  • 6 Attempt to connect at 2400 bit/s
  • 7 Attempt to connect in V.23 75/1200 mode.
  • 8 Attempt to connect at 9600 bit/s
  • 9 Attempt to connect at 12000 bit/s
  • 10 Attempt to connect at 14400 bit/s
S38 Delay before Force Disconnect 0–255 seconds 20 seconds


The ITU-T established a standard in its V-Series Recommendations, V.25 ter, in 1995 in an attempt to establish a standard for the command set again. It was renamed V.250 in 1998 with an annex that was not concerning the Hayes command set renamed as V.251. A V.250 compliant modem implements the A, D, E, H, I, L, M, N, O, P, Q, T, V, X, Z, &C, &D, and &F commands in the way specified by the standard. It must also implement S registers and must use registers S0, S3, S4, S5, S6, S7, S8, and S10 for the purposes given in the standard. Lastly it also must implement any command beginning with the plus sign, "+" followed by any letter A to Z, only in accordance with ITU recommendations. Modem manufacturers are free to implement other commands and S-registers as they see fit, and may add options to standard commands.

V.250 – Defined leading character sequences
Includes commands related to
+A Call control (network Addressing) issues, common, PSTN, ISDN, ITU-T Rec. X.25, switched digital
+C Digital Cellular extensions
+D Data Compression, ITU-T Rec. V.42 bis
+E Error Control, ITU-T Rec. V.42
+F Facsimile, ITU-T Rec. T.30, etc.
+G Generic issues such as identity and capabilities
+I DTE-DCE Interface issues, ITU-T Rec. V.24, etc.
+M Modulation, ITU-T Rec. V.32 bis, etc.
+P PCM DCE commands, ITU-T Rec. V.92
+S Switched or Simultaneous Data Types
+T Test issues
+V Voice extensions
+W Wireless extensions


The ETSI GSM 07.07 (3GPP TS 27.007) specifies AT style commands for controlling a GSM phone or modem. The ETSI GSM 07.05 (3GPP TS 27.005) specifies AT style commands for managing the SMS feature of GSM.

Examples of GSM commands:[5][6]

Command Description
AT+CPIN=1234 Enter PIN code
AT+CPWD="SC","old","new" Change PIN code from 'old' to 'new'
AT+CLCK="SC",0,"1234" Remove PIN code
AT&V Status
ATI Status (Manufacturer, Model, Revision, IMEI, capabilities)
AT+COPS=? List available networks 0-Unknown/2-Current/3-Forbidden, Longname, Shortname, Numerical-ID, "AcT"
AT+CSQ Get signal strength. Answer: +CSQ: <rssi (more=better)>, <ber, less=better>
ATD*99# Dial access point
AT+CGDCONT=1,"IP","access.point.name" Defines PDP context. [5]

GSM/3G modems typically support the ETSI GSM 07.07/3GPP TS 27.007 AT command set extensions, although how many commands are implemented varies.

Most USB modem vendors, such as Huawei, Sierra Wireless, Option, have also defined proprietary extensions for radio mode selection (GSM/3G preference) or similar. Some recent high speed modems provide a virtual Ethernet interface instead of using a PPP connection for the data connection because of performance reasons (PPP connection is only used between the computer and the modem, not over network). The set-up requires vendor-specific AT command extensions. Sometimes the specifications for these extensions are openly available, other times the vendor requires an NDA for access to these. [7]

Voice command set

Modems with voice or answering-machine capabilities support a superset of these commands to enable digital audio playback and recording.

See also

Notes and references

External links

Telephone network modem standards Motorola modem 28k.jpg

ITU V-Series | V.92 | K56flex | X2 | MNP | Hayes command set

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