Intel 536EX manual +Fmfr?, +Fmdl?, +Frev?

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+FMFR?, +FMDL?, +FREV?]

Data Mode AT COMMANDS

3.4Modem Identification Commands [In, +FMI, +FMR, +FMM, +GMI, +GMM, +GMR, +GSN,

+FMFR?, +FMDL?, +FREV?]

The modem provides product identification AT commands that help determine the modem’s manufacturer, model number, and product revision. To provide flexibility with older software application programs, the modem supports several commands that can be used to request a single item of identification (such as a modem model number). Table 15 lists the commands used to obtain product information (all identification commands are usable in data, fax, or voice mode).

Table 15. Product Identification Information

 

 

AT Commands

 

 

 

 

 

 

Product Information

ATIn Command

Data Mode

Class 1 Fax Mode

Legacy Modems

 

 

 

 

 

Modem Manufacturer

ATI2

AT+GMI

AT+FMI

AT+FMFR?

 

 

 

 

 

Model ID

ATI1

AT+GMM

AT+FMM

AT+FMDL?

 

 

 

 

 

Revision Number

ATI4

AT+GMR

AT+FMR

AT+FREV?

 

 

 

 

 

Example:

 

 

 

 

ATI1

Causes the modem to send the modem’s name to the DTE.

Intel 536EP Response to the modem name request.

V.92 Modem

3.5Establishing a Modem Connection [A, D, DS = n, S0]

Data mode provides several methods for establishing a connection with a remote modem. For each modem, a connection can be initiated manually or automatically in both answer and originate modes. A manual-to-manual connection is useful when both modems (that are on-hook) are connected to an off-hook telephone line. For example, if two people are talking on the telephone, they can manually establish a modem connection without first hanging up. When establishing a manual connection, one modem must be designated as the originating modem and the other as the answering modem. Manual originate mode is initiated by sending an ATD to the DCE. Manual answer mode is accomplished by sending an ATA to the DCE.

Automatic originate mode is initiated by sending an ATD <telephone number & dial modifiers> or ATDS=m to the DCE. Automatic-answer mode is accomplished by setting S-register S0 to a non-zero value. S1 keeps track of how many ring signals are detected. If the content of S0 is non- zero and the number of ring signals (as defined by S0) are detected (that is, S1 = S0), then the DCE goes off-hook and attempts to connect to the remote modem (with the following exceptions):

The time period between the ring signals is greater than 8 seconds, which causes the S1 counter to reset and thus never reach the value for S0.

Caller ID is enabled and S0=1, the modem answers on the second ring signal instead of the first ring signal. This happens because Caller ID puts a signal on the telephone line between the first and second ring signal.

Example:

536EX Chipset Developer’s Manual

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Intel Confidential

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Contents January 536EX ChipsetDeveloper’s Manual 536EX Chipset Developer’s Manual Intel ConfidentialContents ContentsFigures Tables Date Revision HistoryRevision Description1.1Controllerless Modem Driver Overview Introduction1.1.2Windows 95 and Windows Figure 1. WDM Driver Block DiagramUser applications Kernel - ring01.2V.90/V.92 and V.34 Data Modes Figure 2. VxD Mini Port Driver Block Diagram1.3Modem Connection Overview Table 3. DCE-to-ISPData Rates for V.90 Mode Table 1. DTE-to-DCEData Rates for Each ModeTable 2. DCE-to-DCEData Rates for Each Mode Table 4. DTE-ModemData Rate Response Codes 1.4.1Sending Commands1.4.3Dial Modifier 1.4.2AT Escape SequencesTable 5. Data Mode Command Summary AT Command Summary TablesAT Command Summary Tables Table 5. Data Mode Command Summary Continued Result code type Table 5. Data Mode Command Summary Continued Generate data mode calling tone Table 6. V.44/V.42/V.42 bis MNP Command Summary Intel Confidential Table 8. Fax Class 1 Command Summary Table 7. Fax Identity Command SummaryTable 10. Voice DTE→DCE Character Pairs Table 9. IS-101Voice Command SummaryTable 11. Voice DTE←DCE Character Pairs Table 10. Voice DTE→DCE Character Pairs ContinuedTable 13. S-RegisterSummary Table 11. Voice DTE←DCE Character Pairs ContinuedTable 12. Dial Modifiers Table 13. S-RegisterSummary Continued Data Mode AT COMMANDS Data Mode AT COMMANDSFigure 3. Example of a Remote Connection Table 14. Data Reporting Wn MappingATW0 •ATW2Examples +FMFR?, +FMDL?, +FREV? 3.8Modem-to-ModemConnection Data Rates 3.6Online Command Mode Escape Codes, On3.7Hanging Up Hn, S10, Zn, &D2 536EX Chipset Developer’s Manual +PCW=0 +PMH=0+VCID=1 +++AT536EX Chipset Developer’s Manual hook to connect the call. Now you can answer the phone and talk. After completing your voice conversation, the modem will issue another +PMHF and ATO command to initiate a Quick Connect. If the server rejects the request to go on hold, the user can stay on line ATO command issued or disconnect from his initial data connection ATH command issued Table 16. Supported Modulation Types 3.9.1Local Analog Loopback AT&T1 3.9Diagnostic Testing S18, &TnLOCAL MODEM 3.9.2Local Analog Loopback With Self-TestAT&T8Figure 6. Local Analog Loopback Test Local Modem or Test ModemLicensing Requirements for Hayes Escape Sequence 3.10.1Time-IndependentEscape Sequencechar1 = char2 = char3 = escape character S2 <char1><char2><char3><AT command><contents of S3>Format 3.10.2Hayes* Escape Sequence Table 18. Data Mode Command Descriptions536EX Chipset Developer’s Manual Sn=x 536EX Chipset Developer’s Manual Data Mode AT COMMANDSIntel Confidential NOTE: An asterisk * denotes the factory-defaultsetting AT&V0 536EX Chipset Developer’s Manual Definition Command DefaultIndication 1, 0, 536EX Chipset Developer’s Manual 1, 1, +ESR+ETBM +GSN +GMR+IFC +ILRR=mIntel Confidential Description <carrier>+MS=m see ‘m’+PMHF +PHSW=<value> +PMHR536EX Chipset Developer’s Manual Table 19. Operating Modes Error Correction and Data Compression4Error Correction and Data Compression NOTES Table 20. Resulting +ES Connection Types536EX Chipset Developer’s Manual Error Correction and Data CompressionIntel Confidential 536EX Chipset Developer’s Manual direction +DR=m+DS=m <max string>+EFCS=m 3768+ER=m +ES=m 5.1Fax Identity Commands Fax Class 1 AT Commands5.2Fax Class 1 Commands Fax Class 1 AT CommandsTable 23. <mod> Selection Table Figure 8. T.30 HDLC Frame Format Table 24. Fax Mode Command Descriptions +FRH=m Table 24. Fax Mode Command Descriptions ContinuedRefer to Table 23 on page shown in Table 23 on page+FTH=m IS-101Voice Mode AT Commands IS-101Voice Mode AT Commands6.2Relay Control Table 25. Voice Mode Command Descriptions6.1DTMF Detection Reporting m = <deassert>, <assert> +FLO=m+VDR=m m=<enable>, <report>+VEM=m m = <mask>Intel Confidential +VIP +VLS=m Preassigned Voice I/O LabelsRelay/Playback Control: cont Voice I/O Primitive Codes+VSD=m +VRXm = <sds>, <sdi> Transmission: Range: m= <cml>, <vsr>, <scs>, <sel>+VSM=m +VSP=m Compression Method Selection: contfactory default is ‘0’ none +VTS=mDefault CommandDescription DTMF and Tone Generation: contS-Registers S-RegistersTable 26. S-RegisterCommand Descriptions 536EX Chipset Developer’s Manual Intel ConfidentialS-Registers 536EX Chipset Developer’s Manual Intel ConfidentialS-Registers 536EX Chipset Developer’s Manual Intel ConfidentialS-Registers 536EX Chipset Developer’s Manual Table 27. Caller ID Tags for Formatted Reporting Caller IDCaller ID RING RING RING DATE = TIME = NMBR = NAME = DOE JOHN MESG =<DLE> R NMBR =UART Parallel Host Interface 16C450/16C550AParallel Host Interface 16C450/16C550A UART Figure 11. UART Emulation in Intelsdb.VxDUART Receiver Flow Diagram UART Transmitter Flow DiagramBIT NUMBER REGISTERADDRESS NAME9.2.2Modem Status Register MSR 9.2.1Scratch Register SCRFigure 14. Scratch Register SCR Figure 15. Modem Status Register MSRFigure 16. Line Status Register LSR 9.2.3Line Status Register LSR9.2.5Line Control Register LCR 9.2.4Modem Control Register MCRFigure 17. Modem Control Register MCR Figure 18. Line Control Register LCRFigure 19. FIFO Control Register FCR 9.2.6FIFO Control Register FCRRegister Table 28. Interrupt Control Functions 9.2.7Interrupt Identity Register IIRFigure 20. Interrupt Identity Register IIR Figure 21. Interrupt Enable Register IER 9.2.8Interrupt Enable Register IER9.2.9Transmitter Holding Register THR Figure 22. Transmitter Holding Register THR9.2.11Divisor Latch Registers DLM and DLL 9.2.10Receiver Buffer Register RBRFigure 23. Receiver Buffer Register RBR Figure 24. Divisor Latch Registers DLM and DLL9.3.2FIFO Polled Mode Operation 9.316C550A UART FIFO Operation9.3.1FIFO Interrupt Mode Operation 536EX Chipset Developer’s Manual Intel ConfidentialParallel Host Interface 16C450/16C550A UART
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