User's Manual
Table Of Contents
- AT+i Command Set
- Scope
- AT+i Command Guidelines
- AT+i Command Format
- Escape Code Sequence
- Socket Command Abort
- Flexible Host and Modem Interfaces
- Auto Baud Rate Detection
- High Speed USART
- Reset via Serial Link
- Entering Rescue Mode during Runtime
- Internet Session Hang-Up Procedure (Modem Only)
- Modem Startup
- Analog-to-Digital Converter
- iChip Readiness Indication
- Programming iChip’s Serial Number into Flash Memory
- Programming a Unique ID String into Flash Memory
- General Format
- AT+i Result Code Summary
- Report Status
- Connection
- E-mail Send Commands
- E-Mail Retrieve
- HTTP Client Interface
- SerialNET Mode Initiation
- Web Server Interface
- File Transfer Protocol (FTP)
- +i[@]FOPN — FTP Open Session
- +iFDL — FTP Directory Listing
- +iFDNL — FTP Directory Names Listing
- +iFMKD — FTP Make Directory
- +iFCWD — FTP Change Working Directory
- +iFSZ — FTP File Size
- +iFRCV — FTP Receive File
- +iFSTO — FTP Open File for Storage
- +iFAPN — FTP Open File for Appending
- +iFSND — FTP Send File Data
- +iFCLF — FTP Close File
- +iFDEL — FTP Delete File
- +iFCLS — FTP Close Session
- Telnet Client
- Direct Socket Interface
- +iSTCP — Open and Connect A TCP Socket
- +iSUDP — Open A Connectionless UDP Socket
- +iLTCP — Open A TCP Listening Socket
- +iLSST — Get A Listening Socket’s Active Connection Status
- +iSST — Get A Single Socket Status Report
- +iSCS — Get A Socket Connection Status Report
- +iSSND[%] — Send A Byte Stream to A Socket
- +iSRCV — Receive A Byte Stream from A Socket’s Input Buffer
- +iGPNM — Get Peer Name for A Specified Socket
- +iSDMP — Dump Socket Buffer
- +iSFSH[%] — Flush Socket’s Outbound Data
- +iSCLS — Close Socket
- Special Modem Commands
- Wireless LAN Mode
- IP Registration
- DHCP Client
- DHCP Server
- iRouter Mode
- Ad-Hoc Networks
- Secure Socket Protocol
- Network Time Client
- MIME Encapsulated E-Mail Messages
- Flow Control
- Remote Firmware Update
- iChip Parameter Update
- iChip Embedded Web Server
- Introduction
- Features
- Web Server Modes
- The Application Website
- Parameter Tags
- iChip Configuration Mode
- Host Interaction Mode
- Website Creation, Packing, and Uploading
- Manipulating Variables in the Application Website
- Security and Restrictions
- Parameter Update Error Handling
- File Types Supported by iChip’s Web Server
- iChip RAS Server
- SerialNET Theory of Operation
- File Transfer Protocol (FTP) Theory of Operation
- Telnet Client Operation
- Secure Socket Protocol Theory of Operation
- Remote AT+i Service
- Nonvolatile Parameter Database
- Parameter Descriptions
- +iFD — Restore All Parameters to Factory Defaults
- Operational Parameters
- +iXRC — Extended Result Code
- +iDMD — Modem Dial Mode
- +iMIS — Modem Initialization String
- +iMTYP — Set Type of Modem Connected to iChip
- +iWTC — Wait Time Constant
- +iTTO — TCP Timeout
- +iPGT — PING Timeout
- +iMPS — Max PPP Packet Size
- +iTTR — TCP Retransmit Timeout
- +iBDRF — Define A Fixed Baud Rate on Host Connection
- +iBDRM — Define A Fixed Baud Rate on iChip( Modem Connection
- +iBDRD — Baud Rate Divider
- +iAWS — Activate WEB Server Automatically
- +iLATI — TCP/IP Listening Socket to Service Remote AT+i Commands
- +iFLW — Set Flow Control Mode
- +iCPF — Active Communications Platform
- +iPSE — Set Power Save Mode
- +iSDM — Service Disabling Mode
- +iDF — IP Protocol ‘Don’t Fragment’ Bit Value
- +iCKSM — Checksum Mode
- +iHIF — Host Interface
- +iMIF — Modem Interface
- +iADCL — ADC Level
- +iADCD — ADC Delta
- +iADCT — ADC Polling Time
- +iADCP — ADC GPIO Pin
- +iRRA — iChip Readiness Report Activation
- +iRRHW — iChip Readiness Hardware Pin
- ISP Connection Parameters
- Server Profile Parameters
- +iLVS — ‘Leave on Server’ Flag
- +iDNSn — Define Domain Name Server IP Address
- +iSMTP — Define SMTP Server Name
- +iSMA — SMTP Authentication Method
- +iSMU — Define SMTP Login User Name
- +iSMP — Define SMTP Login Password
- +iPOP3 — Define POP3 Server Name
- +iMBX — Define POP3 Mailbox Name
- +iMPWD — Define POP3 Mailbox Password
- +iNTSn — Define Network Time Server
- +NTOD — Define Network Time-of-Day Activation Flag
- +iGMTO — Define Greenwich Mean Time Offset
- +iDSTD — Define Daylight Savings Transition Rule
- +iPDSn — Define PING Destination Server
- +iPFR — PING Destination Server Polling Frequency
- +iUFn — User Fields and Macro Substitution
- Email Format Parameters
- +iXFH — Transfer Headers Flag
- +iHDL — Limit Number of Header Lines
- +iFLS — Define Filter String
- +iDELF — Email Delete Filter String
- +iSBJ — Email Subject Field
- +iTOA — Define Primary Addressee
- +iTO — Email ‘To’ Description/Name
- +iREA — Return Email Address
- +iFRM — Email ‘From’ Description/Name
- +iCCn — Define Alternate Addressee
- +iMT — Media Type Value
- +iMST — Media Subtype String
- +iFN — Attachment File Name
- HTTP Parameters
- RAS Server Parameters
- LAN Parameters
- Wireless LAN Parameters
- +iWLCH — Wireless LAN Communication Channel
- +iWLSI — Wireless LAN Service Set Identifier
- +iWLWM — Wireless LAN WEP Mode
- +iWLKI — Wireless LAN Transmission WEP Key Index
- +iWLKn — Wireless LAN WEP Key Array
- +iWLPS — Wireless LAN Power Save
- +iWLPP — Personal Shared Key Pass-Phrase
- +iWROM — Enable Roaming in WiFi
- +iWPSI — Periodic WiFi Scan Interval
- +iWSRL — SNR Low Threshold
- +iWSRH — SNR High Threshold
- +iWSIn — Wireless LAN Service Set Identifier Array
- +iWPPn — Pre-Shared Key Passphrase Array
- +iWKYn — Wireless LAN WEP Key Array
- +iWSTn — Wireless LAN Security Type Array
- +iWSEC — Wireless LAN WPA Security
- IP Registration Parameters
- SerialNET Mode Parameters
- +iHSRV | +iHSRn — Host Server Name/IP
- +iHSS — Assign Special Characters to Hosts
- +iDSTR — Define Disconnection String for SerialNET Mode
- +iLPRT — SerialNET Device Listening Port
- +iMBTB — Max Bytes To Buffer
- +iMTTF — Max Timeout to Socket Flush
- +iFCHR — Flush Character
- +iMCBF — Maximum Characters before Socket Flush
- +iIATO — Inactivity Timeout
- +iSNSI — SerialNET Device Serial Interface
- +iSTYP — SerialNET Device Socket Type
- +iSNRD — SerialNET Device Re-Initialization Delay
- +iSPN — SerialNET Server Phone Number
- +iSDT — SerialNET Dialup Timeout
- +iSWT — SerialNET Wake-Up Timeout
- +iPTD — SerialNET Packets to Discard
- Remote Firmware Update Parameters
- Remote Parameter Update
- Note: This default value is shipped from the factory. The AT+iFD command does not restore RPG to this value.
- Appendix A
- Appendix B
- Appendix C
- Index
iChip RAS Server
AT+i Programmer‘s Manual Version 8.32 28-2
28.3 RAS Theory of Operation
When a remote client dials into iChip, the modem RING strings are transferred by iChip
(which defaults to transparent mode) to the host. When the RAS feature is enabled (RAU
contains a value), iChip picks up the line and negotiates a PPP connection by issuing the
ATA (modem) command after RAR RING strings have been received.
If the host chooses to manage a direct (modem-to-modem) data connection, it can pick up
the line before RAR RING strings have arrived by issuing the ATA modem command.
During RAS PPP negotiations, iChip will replies only to (+++) (escape sequence) and
AT+iRPn commands. Specifically, iChip replies ―Connecting as RAS‖ to the AT+iRP2
(iChip status) command. The escape sequence can be used to abort the RAS session at
any time. The AT+iRP2 command is the only means for the host processor to determine
that a PPP session is in progress. iChip manages the RAS protocol internally and does not
transfer any information to the host. Any other commands received from the host are
disregarded by iChip.
Once the PPP connection has been fully negotiated and established, iChip responds to all
AT+i commands as when it is online. Specifically, iChip replies ―RAS Connected‖ to the
AT+iRP2 command.
As part of the PPP negotiation, iChip assigns itself the default IP 192.168.0.1 and
allocates 192.168.0.2 as the client IP. However, if the client requests a specific IP, iChip
always grants the client‘s request and uses the client‘s IP minus 1 as its own IP.
The following restriction to the minus 1 rule applies: If the IP requested by the client
minus 1 is an IP address that ends with 0x00 or 0x255 as the last nibble, iChip assigns
itself with the client‘s IP plus 1 instead of minus 1. This is done to assure that the IP that
iChip assigns itself never violates the rule that defines that a network or host IP segment
may not be all binary 1‘s, nor all binary 0‘s.
After a RAS PPP connection is established, iChip automatically activates the internal web
server, if the AWS parameter is set to a non-zero value. Thus, the remote client can
browse iChip‘s website.
28.3.1 Auto PPP RAS Mode
iChip allows combining RAS and direct modem-to-modem communication sessions. A
special mode, named Auto PPP RAS, supports dialing into the iChip with a PPP dialer or
a regular modem.
Auto PPP RAS mode is enabled by enabling RAS mode and adding a +100 offset to the
RAR parameter, where [<RAR>-100] determines the number of RINGS after which iChip
automatically picks up the line and negotiates a PPP connection. The host processor can
instruct the modem to pick up the line beforehand by issuing the ATA (modem)
command or by setting the modem to auto-answer after less than [<RAR>-100] RING
strings. This is normally done in order to manage a direct modem-to-modem (non-PPP)
communication session.
When iChip is in the Auto PPP RAS mode, it monitors the data stream following the
modem CONNECT line. If the first character transmitted by the remote end is (~) (0x7E),