1. A Voice over IP (VoIP) adapter for POTS phone, comprising:
a POTS phone connector for connecting to a POTS phone;
an IP network interface for connecting to an IP network;
a first signaling receiver for receiving signaling messages from a POTS phone;
a second signaling receiver for receiving signaling messages from the IP network;
a first signaling sender for sending signaling messages to the POTS phone;
a second signaling sender for sending signaling messages to the IP network;
a first media receiver for receiving media data from the POTS phone;
a second media receiver for receiving media data from the IP network;
a first media sender for sending media data in a format that can be recognized by the POTS phone to the POTS phone;
a second media sender for sending media data in the form of appropriate VoIP data packets to the IP network;
a controller for controlling said first and said second signaling sender to send out signaling messages, said first and said second media receiver to receive incoming media streams, and said first and said second media sender to send out media data;
a DTMF (Dual Tone Multiple Frequency) signal detector for detecting DTMF signals in all the signals received from the POTS phone and decoding them; and
a command store for storing a set of digit sequence commands which represent the advanced VoIP functions;
wherein, said controller compares the digit sequence decoded from the DTMF signals with said set of digit sequence commands, and performs the corresponding advanced VoIP function.
2. The VoIP adapter according to claim 1, further comprising:
a media mixer for mixing specified media data streams according to the instructions of said controller.
3. The VoIP adapter according to claim 1, further comprising:
a media data buffer for storing media data.
4. The VoIP adapter according to claim 3, comprising a plurality of media data buffers, each of which stores the media data of one voice channel.
5. The VoIP adapter according to claim 3, characterized in that said controller is implemented by a state machine, which is driven by the events generated by said first signaling receiver, said second signaling receiver or said DTMF signal detector.
6. The VoIP adapter according to claim 5, further comprising:
a voice prompt store for storing pre-recorded voice prompts.
7. A VoIP network device comprising:
a VoIP adapter comprising:
a POTS phone connector for connecting to a POTS phone;
an IP network interface for connecting to an IP network;
a first signaling receiver for receiving signaling messages from a POTS phone;
a second signaling receiver for receiving signaling messages from the IP network;
a first signaling sender for sending signaling messages to the POTS phone;
a second signaling sender for sending signaling messages to the IP network;
a first media receiver for receiving media data from the POTS phone;
a second media receiver for receiving media data from the IP network;
a first media sender for sending media data in a format that can be recognized by the POTS phone to the POTS phone;
a second media sender for sending media data in the form of appropriate VoIP data packets to the IP network;
a controller for controlling said first and said second signaling sender to send out signaling messages, said first and said second media receiver to receive incoming media streams, and said first and said second media sender to send out media data, and wherein said adapter shares the IP network interface with at least one of:
a modem, an access server, a proxy server, a router and an Ethernet switch; and
a DTMF (Dual Tone Multiple Frequency) signal detector for detecting DTMF signals in all the signals received from the POTS phone and decoding them; and
a command store for storing a set of digit sequence commands which represent the advanced VoIP functions;
wherein, said controller compares the digit sequence decoded from the DTMF signals with said set of digit sequence commands, and performs the corresponding advanced VoIP function.
8. A method for a VoIP adapter to perform advanced VoIP functions by a POTS phone, comprising the steps of: using a POTS phone to send a digit sequence command in the form of DTMF signals; detecting and decoding said DTMF signals into the DTMF digit sequence; comparing said DTMF digit sequence with predefined digit sequence commands in a set of digit sequence commands which are stored in a command store and which represent advanced VoIP functions; and if said DTMF digit sequence is a digit sequence command of an advanced VoIP function, performing the advanced VoIP function.
9. The method according to claim 8, comprising the further step of:
sending voice prompts to said POTS phone.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A rigid, closed-cell polyurethane foam having a density of from 2.0 to 4.0 poundscubic foot and a k-factor of less than 0.130 BTU-in.hr.ft.2\xb0 F. at 75\xb0 F. which is produced by reacting
a) an isocyanate-reactive component consisting of:
(1) an toluenediamine-initiated polyether polyol and
(2) a polyester polyol
with
b) a diisocyanate or polyisocyanate
in the presence of
c) 1,1,1,3,3-pentafluoropropane, and
d) a catalyst
in the presence of less than 0.3% by weight of water, based on total foam-forming mixture.
2. The foam of claim 1 in which a)(1) is an ortho-toluene diamine-initiated polyether polyol.
3. The foam of claim 1 in which no water is added to the reaction mixture.
4. A process for the production a rigid, closed-cell polyurethane foam having a density of from 2 to 4 poundscubic foot and a k-factor of less than 0.130 BTU-in.hr.ft.2\xb0 F. at 75\xb0 F. comprising reacting
a) an isocyanate-reactive component consisting of:
(1) an ortho-toluenediamine-initiated polyether polyol and
(2) a polyester polyol
with
b) a diisocyanate or polyisocyanate
in the presence of
c) 1,1,1,3,3-pentafluoropropane,
d) a catalyst, and
e) water.