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TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective date 24 months after March 2007 publication of TIA-1083 are now mandatory for compliance with the standard. Frequency response template now applies to transverse magnetic field as well as to perpendicular magnetic field.

TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective

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Page 1: TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective

TIA-1083-A

Minimal changes for telephones with analog interfaces that were covered by TIA-1083.

Transverse performance requirements that had an effective date 24 months after March 2007 publication of TIA-1083 are now mandatory for compliance with the standard.

Frequency response template now applies to transverse magnetic field as well as to perpendicular magnetic field.

Page 2: TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective

TIA-1083-A

Main purpose was to add requirements for wireline products with digital interfaces such as VoIP telephones, softphones running on personal computers, etc.

Goal was identical performance requirements for all telephones.

Since magnetic noise sources are internal to the telephone handset, the same test procedures should apply.

Specifying digital input signal equivalent to analog signal being used for measuring desired magnetic field was the challenge.

Page 3: TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective

Analog Test Signalfor Measurement of Desired Magnetic Field

Borrowed verbatim from 47 CFR 68.316

-10 dBVoc from 900 ohm source applied directly to telephone

For typical 600 ohm telephone, the voltage divider action results in -18 dBV, or -15.8 dBm across the telephone terminals.

-10 dBVoc

900

600- 18 dBV

Page 4: TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective

Translation to Digital Test Signalfor Measurement of Desired Magnetic Field

Telephones with digital interfaces typically encounter a 9 dB higher signal level applied to their terminals than telephones with analog interfaces.

So TIA-1083-A specifies a -7 dBm signal for measuring the desired magnetic field field produced by a telephone with a digital interface.

-15.8 dBm + 9 dB -7 dBm.

Page 5: TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective

Why 9 dB Difference?

Transmission Plans and Standards

The Public Switched Telephone Network is all digital from end office to end office with no loss between end offices.

Likewise calls placed via the Internet experience no loss between where they enter the Internet and where they leave it.

Thus, the loudness of a telephone call is determined by the acoustic-to-electrical conversion efficiency at the send end and the electrical-to-acoustic conversion efficiency at the receive end.

However, a 6 dB loss pad used in receive direction for analog lines at the Digital End Office (DEO) to control echo must be taken into account.

Page 6: TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective

Transmission Plans

DEO DEO

Internet

ANA

DIG

IP

ANA

DIG

IP

PSTN

0 dBSLR = 8 RLR = 2

Page 7: TIA-1083-A Minimal changes for telephones with analog interfaces that were covered by TIA-1083. Transverse performance requirements that had an effective

Receive Implementations

DEO

6 dBD/AAnalogPhone

DigitalPhone

IPPhone

Analog Loop3 dB Avg

Digital Loop0 dB

IP Connection0 dB

SLR = 8

SLR = 8

RelativeLevel

Ref

+9 dB

+9 dB