Data Mode AT COMMANDS

ATDT 9,444-5555Automatically dials the telephone number with DTMF tones. After dialing a ‘9’, the comma (,) causes the modem to pause two seconds before dialing the rest of the telephone number.

modem 1: ATD; When establishing a manual-to-manual connection, the designated

modem 2: ATA originating modem should receive the ATD command from its DTE just before the designated answering modem receives the ATA command from its DTE. It is important that the time between the ATD and ATA commands is less than 2 seconds.

AT-C1DT 123 Causes the modem to dial the telephone number 123 and immediately start sending a data calling tone. Calling tone can then be detected by the remote voice mail system. After detecting the calling tone, the remote system can change to data mode and start the data modem connection handshake.

3.6Online Command Mode [Escape Codes, On]

After establishing a connection with a remote modem, the DTE sends the appropriate escape sequence to the DCE, which causes the DCE to enter the online command mode. The online command mode is used to send AT commands to the DCE while the DCE is still connected to the remote modem. The supported escape sequences are described in Section 3.10, “AT Escape Sequences” on page 38. To re-enter the online data mode, use the ATOn command.

Example:

1

second +++

Hayes Escape Sequence. Guard times (in which the DTE does not send

1

second

data to the DCE) of 1 second are needed before and after the three

 

 

escape characters ‘+’.

+++AT<CR>

TIES (Time Independent Escape Sequence).

ATO

Causes the modem to re-enter online data mode.

3.7Hanging Up [Hn, S10, Zn, &D2]

A modem connection terminates when the modem hangs up or when the remote modem transmit carrier is off longer than the duration specified in S-register S10. To hang up, the DTE typically sends an escape code sequence that causes the DCE to enter online command mode. Upon receiving an ‘OK’ message, the DTE sends either ATH or ATZn to the DCE. When the AT&D2 command is used, the modem goes on-hook (hangs up) after an on-to-off transition of the DTR occurs.

Note: The ATZn command causes the DCE to hang up and re-initialize itself to the user profile specified by ‘n’.

3.8Modem-to-Modem Connection Data Rates

The data rates differ for each data mode selected. The 536EX chipsets either default to V.90 or V.92 mode depending on the driver version. For non-ISP connections, the chipsets fall back to V.34 mode. The modem defaults to whatever mode is issued by the +MS=m command (see the supported modulation types on Table 16 on page 35).

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536EX Chipset Developer’s Manual

Intel Confidential

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Intel 537EX manual Online Command Mode Escape Codes, On, Hanging Up Hn, S10, Zn, &D2, Modem-to-Modem Connection Data Rates

537EX specifications

The Intel 537EX is a powerful and innovative embedded processor designed for a range of applications, particularly in the fields of industrial automation, telecommunications, and transport management systems. This processor is a member of Intel's embedded product line, tailored specifically to meet the demands of systems that require high reliability and long lifecycle support.

One of the main features of the Intel 537EX is its multi-core architecture, which enables efficient parallel processing capabilities. This allows for the execution of multiple tasks simultaneously, significantly improving overall system performance. The processor also incorporates Intel’s advanced power management technology, which ensures that the device consumes energy efficiently, enhances thermal performance, and prolongs the lifespan of the system.

The Intel 537EX supports a range of connectivity options, including high-speed Ethernet and Serial ATA interfaces. This ensures that it can easily integrate into existing systems, seamlessly supporting applications that require robust data transfer capabilities. Additionally, the processor is equipped with multiple I/O ports, facilitating the connection of various peripherals and sensors, which is crucial in industrial applications.

One of the standout technologies within the Intel 537EX is its support for hardware virtualization. This feature allows for the creation of multiple virtual environments within a single physical structure, optimizing resource utilization and enhancing system flexibility. Additionally, Intel’s integrated security technologies provide a significant layer of protection against potential threats, ensuring that embedded systems remain secure.

Another characteristic of the Intel 537EX is its extensive software support, which includes compatibility with various operating systems and development environments. This versatility makes it an attractive choice for developers looking to build or upgrade their embedded systems. With access to Intel's comprehensive software tools, developers can quickly optimize applications to take full advantage of the processor's capabilities.

The Intel 537EX also boasts excellent thermal performance, allowing it to operate efficiently in harsh environments. This is crucial for embedded applications in industrial settings where temperature fluctuations are common. Overall, the Intel 537EX is engineered to deliver high-performance processing power, superior connectivity, and enhanced security, solidifying its position as a reliable choice for demanding embedded applications.