Difference between revisions of "DNVT"

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The above article is available for purchase, but is not included here due to copyright restrictions. The article provides considerable insight into the DNVT signaling, but does not provide sufficient details to implement compatible hardware. An effort is underway to attempt to reverse-engineer the DNVT signaling and produce an open specification, as part of the [[DNVT2IP]] project.
 
The above article is available for purchase, but is not included here due to copyright restrictions. The article provides considerable insight into the DNVT signaling, but does not provide sufficient details to implement compatible hardware. An effort is underway to attempt to reverse-engineer the DNVT signaling and produce an open specification, as part of the [[DNVT2IP]] project.
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==Related Files==
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;{{pdf|TTC-39.pdf|TTC-39}}
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[[Category:Military/Field Phones]]
 
[[Category:Military/Field Phones]]

Revision as of 03:01, 28 May 2013

Digital Nonsecure Voice Terminals (DNVTs) are digital field telephones using a 4-wire interface with signaling at 16kbps or 32kbps. Each wire pair carries data in one direction, i.e. one pair of binding posts at each end is a transmit output, and the other is a receive input. The devices may be powered over the 4-wire interface (common battery mode), or may be locally powered (local battery mode) when used in pairs without a telephone exchange. Not all DNVTs support local battery mode mode.

Tactical DNVTs include:

DNVTs are intended to be connected to telephone exchanges (and in some cases, to each other) with WF-16/U two-pair field telephone wire. DNVTs are compatible with digital telephone exchanges such as the AN/TTC-39 TRI-TAC family.

Signaling and operating states are paritally documented in IEEE Transactions on Communications, Vol. COM-29, No. 11, November 1981, pages 1609 through 1614:

The Digital Nonsecure Voice Terminal

The above article is available for purchase, but is not included here due to copyright restrictions. The article provides considerable insight into the DNVT signaling, but does not provide sufficient details to implement compatible hardware. An effort is underway to attempt to reverse-engineer the DNVT signaling and produce an open specification, as part of the DNVT2IP project.


Related Files

Adobe PDF icon.png TTC-39