Cisco Systems ATA 188 manual CED tone Detected

Page 145

Chapter 7 Configuring and Debugging Fax Services

Debugging the Cisco ATA 186/188 Fax Services

------------ Summary --------------

Input file: faxpassthru.cap

<00.723>: (G723) 2.213:10000 => 2.116:10002

total 38 pkts(70 frames), lost 0 pkts, fill 7 silence pkts

This indicates that the input filename is faxpassthru.cap. The output file 00.723 contains the G.723-compressed stream from <2.123:10000> to <2.116:10002>; 38 packets (70 frames) were processed by rtpcatch. No lost packets were detected and seven silence packets were found.

---------- FAX Summary 1 ----------

[

25]<2.213=>2.116>

Codec G723

 

[

26]<2.116=>2.213>

Codec G723

 

[

101]<2.116=>2.213>

Codec G711u/D

 

[

102]<2.116=>2.213>

NSE PT 100, EVT 192: Up-Speed,

CED tone Detected

[

103]<2.116=>2.213>

NSE PT 100, EVT 193: ECAN OFF,

Phase Reversal Detected

[

105]<2.213=>2.116>

NSE PT 100, EVT 192: Up-Speed,

CED tone Detected

[

107]<2.213=>2.116>

Codec G711u/D

 

This indicates that the audio streams originating at <2.213> and <2.216> are G.723-compressed. The audio stream from <2.116> was then up-sped to G.711µ-law at packet number 101. The NSE signaling packets were sent at packet number 102, 103 and 105. Finally, the audio stream from <2.113> was up-sped to G.711µ-law.

---------- FAX Summary 2 ----------

PATH: 2.213:10000 => 2.116:10002

[

25]Codec

G723

 

[

105]NSE PT 100, EVT 192: Up-Speed,

CED tone Detected

[

107]Codec

G711u/D

 

PATH: 2.116:10002 => 2.213:10000

 

[

26]Codec

G723

 

[

101]Codec

G711u/D

 

[

102]NSE PT 100, EVT 192: Up-Speed,

CED tone Detected

[

103]NSE PT 100, EVT 193: ECAN OFF,

Phase Reversal Detected

This summarizes the fax events for each path.

The audio stream events reported by rtpcatch include:

beginning of new audio codec

silence packets

lost packets

erased packets (as in G.729)

The NSE events reported by rtpcatch include:

event 32, Fax Mode, CED tone Detected (RFC2833)

event 34, Modem Mode, ANSam tone Detected (RFC2833)

event 192, Up-Speed, CED tone Detected

event 193, ECAN OFF, Phase Reversal Detected

event 194, ECAN ON, Silence Detected

event 200, T38 Fax Mode, V.21 Detected

event 201, T38 Fax Mode ACK

event 202, T38 Fax Mode NACK

Cisco ATA 186 and Cisco ATA 188 Analog Telephone Adaptor Administrator’s Guide (H.323)

 

OL-4008-01

7-15

 

 

 

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Contents Customer Order Number OL-4008-01 Corporate HeadquartersCopyright 2003, Cisco Systems, Inc All rights reserved Iii N T E N T SSafety Recommendations ToConfig Dhcp Vii DNS1IP DNS2IPViii Using FAX ModeContacting TAC OL-4008-01 Audience OverviewThis preface includes the following sections Conventions OrganizationChapter Description XiiXiii Xiv Related DocumentationWorld Wide Web Obtaining DocumentationDocumentation CD-ROM Ordering DocumentationCisco.com Obtaining Technical AssistanceTechnical Assistance Center We appreciate your commentsCisco TAC Escalation Center Cisco TAC Web SiteXvii Xviii Cisco Analog Telephone Adaptor Overview Cisco ATA 186 as Endpoint in an H.323 Network Gateways TerminalsMCUs GatekeepersProxy Server Cisco ATA 186-Rear View Hardware OverviewFunction Button Additional Supported Signaling Protocols Software FeaturesVoice Codecs Supported Other Supported ProtocolsCisco ATA H.323 Services Fax Services Installation and Configuration OverviewSupplementary Services Action ReferenceImage by using the Tftp server-upgrade method or Upgrading the Cisco ATA SignalingManual-upgrade method ImageSafety Recommendations Installing the Cisco ATAWhat the Cisco ATA Package Includes Installation ProcedureWhat You Need Cisco ATA 186 Rear Panel Connections ProcedureInstalling the Cisco ATA Installation Procedure Power-Down Procedure OL-4008-01 Configuring the Cisco ATA for H.323 Default Boot Load Behavior Parameter and Bits Reference VLANSetting,OpFlags OpFlags,Feature VLANSettingBits ExampleBasic Configuration Steps in a Tftp Server Environment Steps Needed to Configure the Cisco ATAAtadefault.cfg Configuration File, Upgrading the Signaling Image from a Tftp ServerConfiguring the Cisco ATA to Obtain its Basic Configuration Steps in a Non-TFTP Server EnvironmentConfiguration File from the Tftp Server, Refreshing or Resetting the Cisco ATA,Setting Up the Tftp Server with Cisco ATA Software Configuring the Cisco ATA Using a Tftp ServerConfigurable Features and Related Parameters Creating Unique and Common Cisco ATA Configuration Files Syntax Save this file of Cisco ATA-specific parameters asCommand Example Using atapname.exe Tool to Obtain MAC AddressCommand Output Syntax examples Using the EncryptKey Parameter and cfgfmt ToolUsing a Dhcp Server, Atadefault.cfg Configuration FileWithout Using a Dhcp Server, Using a Dhcp Server Other Dhcp Options You Can Set Without Using a Dhcp ServerDNS1IP DNS2IP Ntpip Voice Configuration MenuVoice Menu Number Features Using the Voice Configuration MenuKey Alphanumeric Characters Entering Alphanumeric ValuesResetting the Cisco ATA to Factory Default Values Cisco ATA Web ConfigurationWhere ipaddress is the IP address of the Cisco ATA UID0 Refreshing or Resetting the Cisco ATA Web Interface Access-Control ConfigurationRelated Parameter OpFlags, page 5-33-BitHttp Procedure to Refresh the Cisco ATA Upgrading the H.323 Signaling ImageHttp Procedure to Reset the Cisco ATA Http Refresh and Reset Access-Control ConfigurationOL-4008-01 Required Parameters Important Basic H.323 ServicesSetting the Signaling Image to H.323 Mode Using the Cisco ATA with an H.323 Gatekeeper Setting Up User IDs for the Cisco ATARelated Configuration Parameters UID0, UID1,Setting Up an Alternate H.323 Gatekeeper Setting Up Gatekeeper Time-To-Live ValueLoginID0, LoginID1, UID0, UID1, AltGk, AltGkTimeOut, ConnectMode,Establishing Authentication with Cisco H.323 Gatekeeper Using Multiple Cisco ATAs Without an H.323 Gatekeeper Using the Cisco ATA Without an H.323 GatekeeperGateway, GkOrProxy, Setting the Audio Codecs Additional H.323 ServicesIPDialPlan, LBRCodec, AudioMode,Configuring Billable Features Configuring Audio Packet SettingsConfiguring the Cisco ATA Refresh Interval Configuring the Call Waiting Permanent Default SettingConfiguring Hook Flash Timing Configuring the Mixing of Call Waiting Tone and AudioConfiguring Reverse Audio Cut-Through Behavior Configuring On-hook delayConfiguring Supplementary Service Behavior and Parameters Debugging DiagnosticsNetwork Timing Polarity SettingsProgress Tones Selecting Dtmf and Hookflash Transmission MethodsSelecting H.323 Connection and H.245 Transmission Methods Setting Dial PlansConnectMode, page 5-28-Bits 0 DialPlan,Configurable Features Related Parameters OL-4008-01 Parameters and Defaults Configuration Text File Template This section contains only one parameter-UIPassword UIPasswordUser Interface UI Parameter Sections that follow describe these parametersParameters for Configuration Method and Encryption Configuration-Complete ParameterToConfig Range Default Voice Configuration Menu Access Code SettingsUseTFTP TftpURLEncryptKey CfgIntervalUseTFTP, CfgInterval, UseTFTP, TftpURL,320 Network ParametersDHCP, StaticIp, StaticRoute, StaticNetMask, StaticIp Voice Configuration Menu Access Code Related ParametersStaticRoute DHCP, StaticRoute, StaticNetMask,StaticNetMask Account Information ParametersDHCP, StaticIp, StaticNetMask, 255.255.255.0This parameter is the password for the Phone 1 port UID1, PWD0, PWD1, UseLoginID, LoginID0, LoginID1,UID0, PWD0, PWD1, UseLoginID, LoginID0, LoginID1, UID0, UID1, PWD1, UseLoginID, LoginID0, LoginID1, AutMethod,Gateway This parameter is the password for the Phone 2 portLoginID0 UseLoginIDLoginID1, PWD0, PWD1, UseLoginID, AutMethod, LoginID0, PWD0, PWD1, UseLoginID, AutMethod, LoginID1AutMethod BitmapGkOrProxy, AltGk, AltGkTimeOut, GkTimeToLive, GkId, LoginID0, LoginID1, PWD0, PWD1, NTPIP, AltNTPIP,AltGk, AltGkTimeOut, GkTimeToLive, GkId, Gatekeeper ParametersAltGk AltGkTimeOutInteger 30 to 4294967295 secondsGkTimeToLive Default RangeGkId Not specifiedUse H.323 mode -Use SIP mode Mode ParameterOperating Parameters UseSIPUDPTOS, VLANSetting, DNS2IP, UDPTOS, SigTimer, OpFlags, VLANSetting,MediaPort LBRCodecRxCodec, TxCodec, AudioModeAudioMode, page 5-20-Bits 1 TxCodec, RxCodec, NumTxFrames, LBRCodec, ConnectMode, RxCodec,Bit Number Definition RxCodecLBRCodec, NumTxFrames, TxCodec, AudioMode, TxCodecLBRCodec, NumTxFrames, RxCodec, AudioMode, Examples NumTxFramesLBRCodec, RxCodec, TxCodec, Bit Number CallFeaturesCallFeatures, CallCmd, CallerIdMethod, SigTimer, PaidFeatures315 CallerIdMethod 0x00019e60 Polarity316 ConnectMode Use G.711µ-law for fax pass-through codec TimeZoneUse G.711A-law for fax pass-through codec NTPIP, AltNTPIP, AltNTPIP141 AltNTPIP, TimeZone,916 NTPIP, TimeZone,917 SigTimer OpFlags TftpURL, DHCP, VLANSetting,VLANSetting NPrintf Optional Feature Parameters0x0000002b 324RingOnOffTime Default Recommended ValuesIPDialPlan Additional DialPlan Information DialPlanFollowing dial plan About Dial Plan CommandsFollowing dial plans Dial Plan Blocking In RuleRule to Support Dial Prefix Rule to Support Hotline/WarmlineList of Call-Progress Tone Parameters Call-Progress Tone ParametersTone Parameter Syntax Each tone is specified by nine integers, as followsRecommended Values How to Calculate Scaling FactorsUse the following formula to calculate the scaling factor a Specific Call-Progress Tone Parameter Information Default values for the nine-integer array920 921 Cisco ATA plays the busy tone when the callee is busy922 924 923925 CallCmdMaximum of 248 characters 930 CallFeatures, PaidFeatures, CallerIdMethod, SigTimer,OL-4008-01 Call Command Structure Call CommandsCallCmd string has the following structure SyntaxIdentifier Context State of Cisco ATA Context-IdentifiersAction Identifiers Input Sequence IdentifiersIdentifier Input Sequence Identifier ActionCall Command Example Hook-flash Cancel-the-call-attempt Retrieve-the-waiting-call Call Command Default Call Command BehaviorSweden Call Command Default Table NotationsCall Command Behavior CWT WFE cancels the call-Stop CWT and revert to Connected stateCall Command Behavior Call Command Behavior OL-4008-01 Using Fax Pass-through Mode Configuring and Debugging Fax ServicesThis setting translates to the following bitmap Configuring the Cisco ATA for Fax Pass-through modeAudioMode AudioMode, ConnectMode,Recommended Setting Configuring Cisco IOS Gateways to Enable Fax Pass-throughThis setting translates to the bitmap Enable Fax Pass-through Mode, Disable Fax Relay Feature,Run the following command Enable Fax Pass-through ModePerform the command Disable Fax Relay FeatureConfiguring the Cisco ATA for Fax Mode Using FAX ModeConfiguring the Cisco ATA for Fax Mode on a Per-Call Basis Debugging the Cisco ATA 186/188 Fax ServicesConfiguring the Cisco IOS Gateway for Fax Mode Common Problems When Using IOS GatewaysCisco ATA, and 0x0012XXXX for the Phone 2 port Problem ActionFor fax pass-through mode, AudioMode should be set to PortPrserv Overview Using prserv for Diagnosing Fax ProblemsAnalyzing prserv Output for Fax Sessions Prserv Overview, Analyzing prserv Output for Fax Sessions,Terminating-Gateway Example Log event DescriptionPossible Reasons for Failure Originating-Gateway ExampleRtpcatch Overview Using rtpcatch for Diagnosing Fax ProblemsTo use rtpcatch, follow these steps Output Files Example of rtpcatchExplanation CED tone Detected Analyzing rtpcatch Output for Fax Sessions Fax relay mode Cisco fax relay modeAnalysis Both sides use G.711 for the entire fax sessionExample 7-4 T38 Fax Relay Mode Cisco fax relay option is not disabled on the gateway Using rtpcatch to Analyze Common Causes of FailurePossible Causes for Failure Possible Cause for FailureExample 7-9 Fax Pass-through Mode Failure Rtpcatch Limitations Syntax of upgradecode Parameter Upgrading the Signaling Image from a Tftp ServerDefinitions Upgradecode parameter value could be Upgrading the Signaling Image ManuallyProcess Preliminary Steps, Running the Executable File,Preliminary Steps Upgrade RequirementsRunning the Executable File To perform the upgrade, follow these steps Upgrade Procedure and VerificationProcedure to Upgrade Signaling Image SyntaxUsing a Web Browser Confirming a Successful Signaling Image UpgradeUsing a Web Browser, Using the Voice Configuration Menu, Using the Voice Configuration Menu General Troubleshooting Tips TroubleshootingSymptoms and Actions Installation and Upgrade Issues Debugging Ring Load per RJ-11 FXS Port Maximum Distance Frequently Asked QuestionsFeet 975 m Feet 762 mContacting TAC OL-4008-01 Cancelling a Supplementary Service Changing Call CommandsCommon Supplementary Services Call-Waiting Caller ID Caller IDMaking a Conference Call in the United States Call Waiting in the United States Making a Conference Call in SwedenCall Waiting in Sweden Calling Line Identification PresentationCalling Line Identification Restriction in Sweden About Calling Line Identification RestrictionVoice Menu Option Code Description Table B-1lists codes to return basic Cisco ATA informationPassword associated with the primary phone line Table B-2lists configuration codesUID0 or LoginID0 Password associated with the secondary phone lineUser ID telephone number for the Phone 2 port User ID telephone number for the Phone 1 portOption Code Description This section describes Cisco ATA specifications Physical SpecificationsDimensions Weight SpecificationEnvironmental Specifications Electrical SpecificationsImmunity Specifications Description SpecificationSoftware Specifications Ringing CharacteristicsPhysical Interfaces Appendix C Cisco ATA Specifications Software Specifications Sccp OL-4008-01 Supported H.323 Messages SignalingEndpoint-to-Gatekeeper Registration Signaling ScenariosStep Action Description Table D-2 Log Listings Table D-2 Log Listings Endpoint-to-Endpoint Call Setup with a Common Gatekeeper Step Table D-4 Log Listings Table D-4 Log Listings Table D-4 Log Listings Table D-4 Log Listings Table D-4 Log Listings Table D-4 Log Listings Table D-4 Log Listings Call Setup from H.323 Network to Circuit Switched Network CSN/PSTN Action DescriptionStep Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Table D-6 Log Listings Null Table D-6 Log Listings GL-1 GL-2 GL-3 GL-4 Messages can be part of Sgcp and Mgcp messages Signaling connection control partGL-5 GL-6 Traffic Business-class services for Internet telephonyAllow you to define your own customized markup language GL-7GL-8 IN-1 NumericsIN-2 Ethernet ports Example configuration text file Environmental specifications C-2IN-3 Hotline/warmline Http refresh Http resetIN-4 IN-5 PlarIN-6 RJ-45 LEDIN-7 TroubleshootingIN-8
Related manuals
Manual 208 pages 28.48 Kb Manual 64 pages 26.31 Kb Manual 166 pages 49.11 Kb

ATA 188 specifications

The Cisco Systems ATA 188 is a versatile Analog Telephone Adapter designed to facilitate the integration of traditional telephone systems with Voice over Internet Protocol (VoIP) networks. This device has been key in bridging the gap between legacy telephony and modern IP-based communication, allowing users to leverage their existing analog phones while enjoying the benefits of digital connectivity.

One of the main features of the ATA 188 is its ability to connect regular analog phones to a VoIP network, enabling users to make and receive calls over the internet. This significantly reduces calling costs, especially for long-distance and international calls. The ATA 188 supports two phone lines, allowing simultaneous voice calls. This dual-line capability makes it a suitable choice for small businesses or home offices that require multiple lines without the need for extensive infrastructure.

The device is equipped with various technologies that enhance its functionality. It supports the Session Initiation Protocol (SIP) and H.323, making it compatible with a wide range of VoIP service providers. Additionally, the ATA 188 features Quality of Service (QoS) settings, which prioritize voice traffic over the internet, ensuring clear voice quality without interruptions or delays. This is essential for maintaining a professional communication experience, especially in business environments.

Another characteristic of the ATA 188 is its user-friendly configuration interface. It allows users to easily set up and manage their devices through a web-based portal. The configuration process is straightforward, with options to adjust settings such as codec selection, call features including call waiting, and call forwarding functionalities.

Security is also a priority for the ATA 188, as it provides robust protocols to protect call data. The device supports Secure Real-time Transport Protocol (SRTP) and Transport Layer Security (TLS) to encrypt voice traffic and manage signaling securely. This ensures that sensitive conversations remain confidential.

Overall, the Cisco Systems ATA 188 is a reliable and efficient solution for users looking to transition from traditional telephony to VoIP. Its dual-line capacity, compatibility with multiple VoIP standards, user-friendly configuration, and built-in security features make it a valuable asset for both personal and professional communication solutions. In an ever-evolving telecommunications landscape, the ATA 188 remains a relevant and practical choice for integrating legacy telephony with modern internet-based services.
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