TIA-716-1998.pdf

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1、ANSI/TIA/EIA-716-1998 Approved: October 28,1998 TIAIEIA STANDARD Telecommunications Telephone Terminal Equipment - Type 1 Caller Identity Equipment Performance Requirements TIAIEIA-716 NOVEMBER 1998 TELECOMMUNICATIONS INDUSTRY ASSOCIATION Elictronic Industrias Alliance Copyright Telecommunications I

2、ndustry Association Provided by IHS under license with EIALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/29/2007 21:33:09 MDTNo reproduction or networking permitted without license from IHS -,-,- NOTICE W E I A Engineering Standards and Publications are designed to serve the

3、 public interest through eliminating misunderstandings between manufacturers and purchasers, facilitating interchangeability and improvement of products, and assisting the purchaser i n selecting and obtaining with minjmum delay the proper product for his particular need. Existence of such Standards

4、 and Publications shall not in any respect preclude any member or nonmember of W E i A from manufacturing or selling products not conforming to such Standards and Publications, nor shali the existence of such Standards and Publications preclude their voluntary use by those other than “WELA members,

5、whether the standard is to be used either domestically or intemationaily . Standards and Publications are adopted by TIA/EL4 i n accordance with the American National Standards Institute (ANSI) patent policy. By such action, TIA/EIA does not assume any liabiiity to any patent owner, nor does it assu

6、me any obligation whatever to parties adopting the Standard or Publication. This Standard does not purport to address all safety problems associated with its u s e or all applicable regulatory requirements. It is the responsibility of the user of t h i s Standard to establish appropriate safety and

7、health practices and to determine the applicability of regulatory Limitations before its use. (From Standards Proposal No. 3674-A, formulated under the cognizance of the TIA TR-41.3.1 Working Group of the TM TR-41.3 Subcommittee on Residential Terminals). Published by TELECOMMUMCATIONS INDUSTRY ASSO

8、CIATION 1998 Standards and Technology Department 2500 Wilson Boulevard Arlington, VA 22201 PRICE: Please refer to current Catalog of EU, JEDEC, and TIA STANDARDS and ENGINEERING PUBLICATIONS or cali Global Engineering Documents, USA and Canada (1-800-854-7179) International (303-397-7956) AU rights

9、reserved printed i n U.S.A. Copyright Telecommunications Industry Association Provided by IHS under license with EIALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/29/2007 21:33:09 MDTNo reproduction or networking permitted without license from IHS -,-,- . STD*EIA TIA-71b-ENG

10、L 1998 323Lib00 ObCl477b 587 U TINEIA-71 6 TABLE OF CONTENTS I . SCOPE 1 2 . NORMATIVE REFERENCES 2 2.1 MANDATORY. RECOMMENDED. AND PERMISSIVE REQUIREMENTS . . . . . - . . - . . - . . . - . . . . . . 2 3 . DEFINITIONS, ABBREVIATIONS AND ACRONYMS 3 3 3.1 ABBREVIATIONS AND ACRONYMS . 4 TECHNICAL CRITE

11、RIA FOR TYPE 1 CPE 4 4 - . - . - . . . . . . . . . . 4.1 DEFINITION . - . . - . . . . 4 4 4.3.1 FSK following Power Ringing . 4 . . . . . . . . . . . . . . . . . . . . . . . . . 4.2 FUNCTION A L I . - - - - . . 4.3 TIMING PROTOCOL . . . - - . - _ _ - . - . _ _ _ - . . . - - . . . . . - . . . . . . 4

12、.3.2 FSK without Power Ringing 5 4.3.3 Time-out and Resetting Capabilities . 5 . . . . . . . 6 4.4.1 Frequency 6 4.4.2 Signal Levels 6 4.4.3 Twist 6 4.4.4 Baud Rate 6 4.4.5 Noise . 6 4.4.6 Echo Noise 7 4.4.7 Test Matrix for the FSK Signal Properties, Including Multiple Impairments 8 11 4.5.1 Channel

13、 Seizure Signal 11 4.5.2 Mark Signal 11 4.5.3 Signal Dropouts . 11 12 4.6.1 Binary Mandatory, Recommended and Permissive. 0 Mandatory requirements are designated by the terms “shall“ and “shall not“. These requirements are used to indicate conformity in which no deviation is permitted. Recommended r

14、equirements are designated by the terms “should“ and “should not“. These requirements generally relate to compatibility or performance advantages towards which future designs should strive. Permissive are designated by the terms “may“ and “may not“. These requirements are used to indicate an action

15、that is permitted within the limits of the standard. 2 Copyright Telecommunications Industry Association Provided by IHS under license with EIALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/29/2007 21:33:09 MDTNo reproduction or networking permitted without license from IHS

16、-,-,- - STD-EIA TIA-7Lb-ENGL 1998 = 323Lib b04782 B0 II TINEIA-71 6 3. DEFINITIONS, ABBREVIATIONS AND ACRONYMS For the purposes of this Standard, the following definitions apply. 3.1 ABBREVIATIONS AND ACRONYMS CNAM - Calling Name Delivery. CND - Calling Number Delivery. CPE - Customer Premises Equip

17、ment. DDN - Dialable Directory Number. DN - Directory Number. FSK - Frequency Shift Keying. MDMF - Multiple Data Message Format. MWI - (Visual) Message Waiting Indicator. OS1 - Open Switch Interval. SDMF - Single Data Message Format. Copyright Telecommunications Industry Association Provided by IHS

18、under license with EIALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/29/2007 21:33:09 MDTNo reproduction or networking permitted without license from IHS -,-,- TINEIA-71 6 4 TECHNICAL CRITERIA FOR TYPE 1 CPE 4.1 DEFINITION Type 1 Customer Premises Equipment (CPE) supports on

19、-hook signaling with or without power ringing and is able to decode data frames packaged in a Single Data Message Format (SDMF) or a Multiple Data Message Format (MDMF). Examples: 1) Calling Number Delivery (CND) may be transmitted to the CPE in the SDMF or MDMF. All CND deliveries are currently ass

20、ociated with power ringing. 2) Calling Name Delivery (CNAM) is always transmitted in the MDMF with power ringing. 3) (Visual) Message Waiting Indicator (V)MWI) may be transmitted to the CPE in the SDMF or MDMF. The Frequency Shift Keying (FSK) versions of (V)MWI are sent with no power ringing, or du

21、e to limitations in pair gain systems, following an abbreviated ring. 4.2 FUNCTIONALITY Type 1 CPE shall perform three major functions. These functions include: 1) Detection of FSK signals over a range dictated by the combination of switching system, loop plant and pair gain system performance. Such

22、 detection takes place in an environment that could introduce noise and other distorting elements. 2) Decoding of individual information fields, verification of their contents and finally error checking of the entire message for accuracy. 3) Translation and presentation of the binary formatted data

23、in a language the user can understand. 4.3 TIMING PROTOCOL 4.3.1 FSK following Power Ringing For switching features that precede FSK data with power ringing, such as CND and CNAM, the following shall apply: 1) Type 1 CPE shall be ready to receive FSK data commencing between 250 ms and 3600 ms follow

24、ing the end of power ringing. 2) Type 1 CPE shall be able to receive FSK data preceded by the ringing patterns described in ANSI Ti .401 .O24 995. 4 Copyright Telecommunications Industry Association Provided by IHS under license with EIALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Re

25、sale, 03/29/2007 21:33:09 MDTNo reproduction or networking permitted without license from IHS -,-,- TINEIA-71 6 3) Type 1 CPE shall not log or display any type of error message for the following events: 0 Power ringing signals c 1OOms. 0 Dial Pulse signals. 0 Transients due to on-hook and off-hook t

26、ransitions, except during data reception. 4) Type 7 CPE shall tolerate shifts in dc voltage or voltage reversals occurring on the line prior to the start of FSK data. The timing event is illustrated in Figure 1. I 250 ms to I 3.6 Sec I I 200 ms I - Ring Pattern 1 st 2nd Power Power Ring Pattern Patt

27、ern Ring - FSK Data Figure 1 -Timing for FSK following Power Ringing 4.3.2 FSK without Power Ringing If the CPE supports (V)MWI, it shall be able to receive FSK data that i s not preceded with power ringing, Open Switch Intervals (03) , or line polarity reversais. 4.3.3 Time-out and Resetting Capabi

28、lities If a message does not appear to end due to extended Markout (see section 4.6.8), interference, or other similar reasons, Type 1 CPE may terminate the receive sequence of the current message 10 seconds after the end of the “on“ period of the last power ringing pattern. This provides for power

29、conservation in battery-powered devices. If the message was not preceded by power ringing, the CPE may terminate the receive sequence of the current message 10 seconds after the receipt of 70 bits of channel seizure signal. 5 Copyright Telecommunications Industry Association Provided by IHS under li

30、cense with EIALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/29/2007 21:33:09 MDTNo reproduction or networking permitted without license from IHS -,-,- TINEIA-716 4.4 FSK SIGNAL PROPERTIES 4.4.1 Frequency Type 1 CPE shall be able to detect data with a nominal SPACE frequency

31、 of 2200 Hz and a nominal MARK frequency of 1200 Hz. In addition, Type 1 CPE shall tolerate a f 1% variation of these nominal values as stated in the following: 0 2178 Hz to 2222 Hz for Logical O (SPACE). 11 88 Hz to 1212 Hz for Logical 1 (MARK). 4.4.2 Signal Levels Type 1 CPE shall detect MARK betw

32、een 19 mVrms and 476 mVms and shall be able to detect SPACE between 12 rnVrrns and 476 mVrms. Signal levels are measured open circuit across T message type, message length, all parameter type words, all parameter length words and all parameter data words for the MDMF). In the calculation of the chec

33、ksum, the message typel and length, as well as the parameter type and length words will be given the binary representation of their decimal value. All data words, however, will be given the binary representation of their ASCII character set. The CPE shall tolerate distortions in the checksum stop bi

34、t that may make it appear to be a SPACE rather than a MARK. 4.6.8 Markout The CPE shall be able to tolerate any Markout (a string of mark bits following the Checksum word) of up to 4.4 seconds. The CPE shall ignore any SPACE bits after the checksum. 4.7 DATA FIELD DEFINITIONS The least significant b

35、it of the most significant byte is sent first. Each byte is preceded by a start bit (space) and followed by a stop bit (mark). 4.7.1 MDMF Date and Time parameter The CPE shall decode a Parameter Type value O1 hex as the date and time parameter. The length of that parameter is 8 bytes. The most signi

36、ficant byte will be received first. 0 The CPE shall decode the first two bytes as the month information. The first byte of the month information is the 1 Os position (Valid Range 0-1 30 hex and 31 hex). The second byte of the month information is the Is position (Valid Range 0-9 30 hex and 39 hex).

37、The combined month information has a valid range of 1 through 12. The CPE shall decode the next two bytes (3rd and 4th) as the day information. The third byte is the day information, 10s position (Valid Range 0-3 30 hex and 33 hex). The fourth byte is the day information, is position (Valid Range 0-

38、9 30 hex and 39 hex). The combined day information has a valid range of 1 through 31. 0 The CPE shall decode the next two bytes (5th and 6th) as the hour information in 24- hour format. The fifth byte is the hour information, 1 Os position (Valid Range 0-2 30 hex and 32 hex). The sixth byte is the h

39、our information, 1s position (Valid Range 0- 9 30 hex and 39 hex). The combined hour information has a valid range of O through 23. 15 Copyright Telecommunications Industry Association Provided by IHS under license with EIALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/29/20

40、07 21:33:09 MDTNo reproduction or networking permitted without license from IHS -,-,- SlD*EIA TIA-Glb-ENGL 1778 3234bL30 Ob04775 439 8 7 TINEIA-716 6 5 4 3 2 1 O 4.7.2 2 8 The CPE shall decode the next two bytes (7th and 8th) as the minute information. The seventh byte is the minute information, 10s

41、 position (Valid Range 0-5 30 hex and 35 hex). The eighth byte is the minute information, 1s position (Valid Range 0-9 30 hex and 39 hex). The combined minute information has a valid range of O through 59. Month Parameter Word Day Parameter Word Day Parameter Word Hour Parameter Word Hour Parameter

42、Word Minute Parameter Word Minute Parameter Word .- Parameter Length 08h 1 I Month Parameter Word 1 Calling Number 4.7.2.1 SDMF Calling Number For SDMF CND, the CPE shall decode a Message Type value 04 hex as the Calling Number Delivery message. The length of this message is expected to vary. The mo

43、st significant byte will be received first. This message always starts with the Time and Date and concludes with either the Calling number or the Reason of Absence for Calling Number. In this message, the CPE shall support the numeric ASCII characters in this field. The CPE shall be able to decode a

44、nd display 30 hex through 39 hex. The CPE shall decode the binary-represented message length to count off the ensuing data words. The CPE shall decode the first two bytes as the month information. The first byte of the month information is the 10s position (Valid Range 0-1 30 hex and 31 hex). The se

45、cond byte of the month information is the Is position (Valid Range 0-9 30 hex and 39 hex). The combined month information has a valid range of 1 through 12. 16 Copyright Telecommunications Industry Association Provided by IHS under license with EIALicensee=IHS Employees/1111111001, User=Wing, Bernie

46、 Not for Resale, 03/29/2007 21:33:09 MDTNo reproduction or networking permitted without license from IHS -,-,- TINEIA-716 8 7 The CPE shall decode the next two bytes (3rd and 4th) as the day information. The third byte is the day information, IOS position (Valid Range 0-3 30 hex and 33 hex). The fou

47、rth byte is the day information, 1s position (Valid Range 0-9 30 hex and 39 hex). The combined day information has a valid range of 1 through 31. 6 5 4 3 2 1 The CPE shall decode the next two bytes (5th and 6th) as the hour information in 24- hour format. The fifth byte is the hour information, 10s

48、position (Valid Range 0-2 30 hex and 32 hex). The sixth byte is the hour information, 1s position (Valid Range 0- 9 30 hex and 39 hex). The combined hour information has a valid range of O through 23. 1 2 0 The CPE shall decode the next two bytes (7th and 8th) as the minute information. The seventh byte is the minute information, 10s position (Valid Range 0-5 30 hex and 35 hex). The eighth byte is the minute information, 1s position (Valid Range 0-9 30