REMOTE COMMANDS

 

REMOTE COMMANDS

 

Play all messages

10(both lines), 11(Line 1)

Play all messages

10(both lines), 11(Line 1)

 

or 12(Line 2)

 

or 12(Line 2)

Play new messages

20(both lines), 21(Line 1)

Play new messages

20(both lines), 21(Line 1)

 

or 22(Line 2)

 

or 22(Line 2)

Repeat a message

4during playback

Repeat a message

4during playback

Skip a message

6during playback

Skip a message

6during playback

Stop

5

Stop

5

Save messages

Press, *9then hang up.

Save messages

Press, *9then hang up.

Delete all messages

30(both lines), 31(Line 1)

Delete all messages

30(both lines), 31(Line 1)

 

or 32(Line 2)

 

or 32(Line 2)

Delete selected mesage

3during playback

Delete selected mesage

3during playback

Record a memo

#, then 1for (Line 1) or 2

Record a memo

#, then 1for (Line 1) or 2

 

(Line 2), speak after beep, press

 

(Line 2), speak after beep, press

 

5to stop.

 

5to stop.

Turn system on

00(both lines), 01(Line 1)

Turn system on

00(both lines), 01(Line 1)

 

or 02(Line 2)

 

or 02(Line 2)

Turn system off

80(both lines), 81(Line 1)

Turn system off

80(both lines), 81(Line 1)

 

or 82(Line 2)

 

or 82(Line 2)

Record announcement

7*, 1for Line 1, 2for Line 2,

Record announcement

7*, 1for Line 1, 2for Line 2,

 

speak after beep, press 5to stop

 

speak after beep, press 5to stop

Review announcement

71(Line 1) or 72(Line 2)

Review announcement

71(Line 1) or 72(Line 2)

Change Remote Access Code

99

Change Remote Access Code

99

Review call history

92, then 0(both lines), 1

Review call history

92, then 0(both lines), 1

 

(Line 1) or 2(Line 2) and 4

 

(Line 1) or 2(Line 2) and 4

 

(most recent) or 6(earliest)

 

(most recent) or 6(earliest)

End remote access call

*9

End remote access call

*9

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AT&T 1782 user manual Remote Commands

1782 specifications

AT&T 1782 is a significant telecommunications switch that was deployed primarily in the late 20th century, forming an integral part of the phone network infrastructure. This technology played a crucial role in the transition from analog to digital telephony, enhancing the efficiency and reliability of communication services. The AT&T 1782 switch utilized a digital processing architecture, allowing for improved call handling capabilities and a reduction in operational costs.

One of the main features of the AT&T 1782 is its ability to support a high volume of simultaneous calls. With a digital switching capacity, it could handle numerous lines and connections without the performance degradation often seen in older analog systems. This scalability made it an attractive option for many service providers looking to expand their networks while maintaining low latency calls.

In terms of technology, the AT&T 1782 was based on time division multiplexing (TDM), a technique that divides the available bandwidth of a communication medium into time slots. This method allowed multiple signals to share the same transmission medium efficiently, ensuring optimal utilization of resources. The digital nature of the switch also facilitated easier integration with emerging technologies, paving the way for more advanced telecommunication services such as data transmission and multimedia communication.

Another characteristic of the AT&T 1782 switch was its reliability. The design emphasized redundancy and fault tolerance, which minimized downtime and improved service quality. This reliability made the switch suitable for various applications, from residential telephony to larger corporate communications.

The AT&T 1782 also supported advanced features like call routing, billing services, and maintenance monitoring. Service providers could implement these functionalities easily, allowing for personalized customer services and more efficient network management.

Overall, the AT&T 1782 embodies a critical advancement in telecommunication technology, providing the backbone for many service providers during a transformative time in the industry. Its combination of high capacity, digital processing, and reliability positioned it as a preferred choice for many communications networks, influencing how calls and data were managed for years to come.