NETWORKED INTERCOM NODE FOR A NETWORKED AUDIO DISTRIBUTION SYSTEM
This disclosure describes a networked intercom node 100 for a networked audio distribution system, where the system includes one or more networked audio distribution nodes and one or more networked intercom nodes 100. The networked intercom node 100 includes a control processor 110 that uses web services to control the networked audio distribution node and or other intercom nodes 100 in the audio distribution system. The networked intercom node 100 also includes a network connection 190, a speaker output connection 145. Additionally, the networked intercom node 100 includes a microphone 137 that couples to the sound processing unit 130.
Latest CLEARONE COMMUNICATIONS, INC. Patents:
- Methods and apparatuses for echo cancelation with beamforming microphone arrays
- Audio conferencing system for all-in-one displays
- Methods and apparatuses for multiple configurations of beamforming microphone arrays
- Methods and apparatuses for multi-channel acoustic echo cancelation
- Bridge and control proxy for unified communication systems
This application is a continuation of U.S. patent application Ser. No. 11/078,874, filed 14 Mar. 2005, which is incorporated by reference for all purposes into this specification.
TECHNICAL FIELDThe present invention relates generally to the residential and the commercial premise distributed audio industries and, more particularly, to audio, video and control systems for multiple room home or office facilities.
BACKGROUND ARTCurrently, most audio distribution systems consist of a central control processor, amplifiers, matrix switches, sources, speakers, and keypads (further referenced here as Control Point Nodes). All of these components installed together comprise an audio distribution system. Typically in these systems sources, such as CD players, Music Servers, Satellite tuners, AM/FM tuners, tape decks, etc. are centrally located and connected to a matrix switch via analog or digital signals. The signals are then routed to centrally located or remotely located amplifiers. The signal is amplified and then the signals are routed to the speakers for transduction within the installation spaces. In many of these installation systems the matrix switch and multiple amplifiers can create what is known as a multi source to multi room system. Thus, content from different sources can be reproduced in different rooms at the same time, and or the same source can be reproduced in all rooms.
The typical way a user would control the source such as channel up, down or next track, as well as controlling the acoustical properties in the room such as volume and tone is via a small control point node. These control point nodes are typically wall mounted so that the control surface and display (if designed) are easily accessible by the user. These control point nodes can be installed within a single gang, or multiple gangs, or in some cases larger than standard electrical boxes.
Examples of such prior audio systems are disclosed in U.S. Pat. Nos. 6,803,728; 6,501,389; and, 6,389,139; and PCT/AU98/00647.
A significant disadvantage of currently available multi-room systems is their use of a fixed number of inputs available with external tuner source components. A building or large estate with twenty or more rooms equipped to reproduce sound requires a matrix switch capable of at least 20 inputs and outputs and 20 source component radio tuners to allow every room the ability to tune in a different station.
The object of this invention therefore, is to provide in every room of a multi-room facility an integrated wall mounted control point node which allows a user to receive a particular audio input selected from a variety of available sources.
SUMMARY OF INVENTIONThis disclosure describes a networked intercom node 100 for a networked audio distribution system, where the system includes one or more networked audio distribution nodes and one or more networked intercom nodes 100. The networked intercom node 100 includes a control processor 110 that further comprises a flash upgradeable memory, a control surface that receives control information (
This disclosure further describes a networked intercom node 100 where the control information further includes voice activated commands. Additionally, the networked intercom node 100 includes a local audio I/O connection 135 that couples to the control processor 110, where the local audio I/O connection transmits and receives digital audio or analog audio to and from the local audio device, and the control processor 110 uses the local audio I/O connection 135 to transmit and receive control information to and from the local audio device, and where the local audio I/O connection 135 couples to the sound processing unit 130. Further, the networked intercom node includes the digital audio including VOIP.
These and other objects and features of the invention will become more apparent upon a perusal of the following description taken in conjunction with the accompanying drawings wherein:
The present invention is a method and apparatus for a networked intercom node for a networked audio distribution system. This disclosure describes numerous specific details in order to provide a thorough understanding of the present invention. One skilled in the art will appreciate that one may practice the present invention without these specific details. Additionally, this disclosure does not describe some well known items in detail in order not to obscure the present invention.
The invention is an integrally mounted control point node for use in an audio distribution system and including a control processor for receiving command signals and providing audio control signals in response thereto; a command signal generator for producing the command signals in response to activation by a user of the system; and a terminal for receiving a plurality of audio signals. Also included is an audio signal tuner for receiving the control signals and the audio signals, the tuner responding to the control signals by selecting one of the audio signals as an output signal; an amplifier receiving the output signal from the tuner and the control signals from the control processor; and amplifying the output signal in response to the control signals; and a speaker terminal for transmitting the output signal to a speaker. The control point node can be wall mounted to allow multiple room users to individually select a desired audio signal.
According to one feature of the invention, the control processor means includes audio terminal means for receiving a plurality of other audio signals; and a signal processing unit receiving the other audio signals, the signal output, and the audio control signals, the processing unit responding to the control signals by selecting and routing one of the signals to the amplifier. The other audio signals can include, for example, Satellite tuners, CD players, music servers or tape decks.
According to another feature of the invention, the other audio signals include available network audio signals, and the control processor means includes a network I/O for formatting the network audio signals in response to the control signals. This feature allows a user to control a multi-room system away from the control point node.
According to yet another feature, the other signals include local signals received from a local audio I/O, and the control processor includes a local signal I/O for formatting the local signals in response to the control signals. This feature allows a user to control additional information sources in the room retaining the central point node.
According to a further feature of the invention, the generator includes a terminal for receiving the command signals from an external hand held device and a control surface adapted for manual activation by a user to produce the command signals; a display for illustrating selected command signals at the control surface; and a command speaker adapted for audio activation by a user to produce the command signals. These features expand flexible use of the control point node by a user.
According to an additional feature of the invention, the control processor includes a power terminal for receiving power from an external power source, and an energy storage module for supplementing the external power source. This feature provides a steady power level and quick transience response to improve system performance.
Diagrammatically illustrated in
In a preferred embodiment, the ICP 100 is an integrally mounted unit as shown in
The SPU 130 also receives, processes, and routes analog and digital audio signals from an audio I/O connection 135 communicating with the audio I/O 500 as well as analog and digital audio signals from the Network I/O 190 associated with the Network 200. The SPU 130 also processes and produces analog and digital audio signals routed to the audio I/O connect 135, Network I/O 190, and to an integrated amplifier 140. Controlled by the MCP 110, the amplifier 140 provides its amplified audio output signal to the Speaker Output connectors 145. The MCP 110 also receives processes, and routes Infrared and radio frequency serial data via an infrared receiver circuit 170 and creates and transmits infrared or radio frequency serial data via an infrared transmission circuit 160. In addition, the MCP 110 is connected to the Network 200 via the Network I/O circuit 190.
The MCP 110 is powered by a power supply circuit 180 connected to the local or global power supply 600 via a power connection 185. In the preferred embodiment of the ICP 100, the power supply 180 is further enhanced by the use of an energy storage module (ESM) 187 which allows for quick transience response and helps the local or global power supply 600 deliver a steady level of power for the audio system to utilize and improve system performance.
The control surface 150 of the ICP 100 is controlled and communicates directly with the MCP 110. As shown in
Typically, an ICP 100 is located within various rooms of a structure and
According to another embodiment, the ICP 100 can contain provisions for the control surface to be served up via the Network 200 allowing the user to control a multi-room system away from the ICP. In other embodiments the ICP 100 can be encoded directly or remotely to provide web services to other nodes on the network such as providing the radio tuner as a streamed global source; participate within a meshed packet switched network or cluster; and store, time shift, or space shift audio content for use of rendering the audio later or remotely. In still other embodiments, the ICP 100 can render signals derived from wireless WAN technologies or from satellite services such as from XM radio, Sirius, or Worldspace.
Obviously, many modifications and variations of the present invention are possible in light of the above teachings. It is to be understood, therefore, that the invention can be practiced otherwise than as specifically described.
Claims
1. A networked intercom node for a networked audio distribution system, where the system includes one or more networked audio distribution nodes and one or more networked intercom nodes, comprising:
- a control processor that further comprises a flash upgradeable memory, a control surface that receives control information, IR/RF transceivers for transmitting and receiving control information, and a display device that displays control information, said control processor uses web services to control the networked audio distribution node and or other intercom nodes in the audio distribution system;
- a network connection that couples to said control processor, said network connection transmits and receives digital audio from the networked audio distribution node and or other networked integrated control nodes in the audio distribution system;
- a speaker output connection that couples to said control processor, said speaker output connection transmits analog audio to the local speaker;
- a sound processing unit with an integrated amplifier that couples to said network connection and said speaker output connection, said sound processing unit receives, processes, and transmits analog and digital audio between said network connection and said speaker output connection; and
- a microphone that couples to said sound processing unit, said microphone receives analog audio.
2. The claim of claim 1 wherein said control information further comprises voice activated commands.
3. The claim of claim 1 further comprising a local audio I/O connection that couples to said control processor, said local audio I/O connection transmits and receives digital audio or analog audio to and from the local audio device, said control processor uses said local audio I/O connection to transmit and receive control information to and from the local audio device, said local audio I/O connection couples to said sound processing unit.
4. The claim of claim 1 wherein said digital audio further comprises VOIP.
5. A method to make a networked intercom node for a networked audio distribution system, where the system includes one or more networked audio distribution nodes and one or more networked intercom nodes, comprising:
- providing a control processor that further comprises a flash upgradeable memory, a control surface that receives control information, IR/RF transceivers for transmitting and receiving control information, and a display device that displays control information, said control processor uses web services to control the networked audio distribution node and or other intercom nodes in the audio distribution system;
- coupling a network connection to said control processor, said network connection transmits and receives digital audio from the networked audio distribution node and or other networked integrated control nodes in the audio distribution system;
- coupling a speaker output connection to said control processor, said speaker output connection transmits analog audio to the local speaker;
- coupling a sound processing unit with an integrated amplifier to said network connection and said speaker output connection, said sound processing unit receives, processes, and transmits analog and digital audio between said network connection, and said speaker output connection; and
- coupling a microphone to said sound processing unit, said microphone receives analog audio.
6. The claim of claim 5 wherein said control information further comprises voice activated commands.
7. The claim of claim 5 further comprising a local audio I/O connection that couples to said control processor, said local audio I/O connection transmits and receives digital audio or analog audio to and from the local audio device, said control processor uses said local audio I/O connection to transmit and receive control information to and from the local audio device, said local audio I/O connection couples to said sound processing unit.
8. The claim of claim 5 wherein said digital audio further comprises VOIP.
9. A method to use a networked intercom node for a networked audio distribution system, where the system includes one or more networked audio distribution nodes and one or more networked intercom nodes, comprising:
- using a control processor that further comprises a flash upgradeable memory, a control surface that receives control information, IR/RF transceivers for transmitting and receiving control information, and a display device that displays control information, said control processor uses web services to control the networked audio distribution node and or other intercom nodes in the audio distribution system;
- transmitting and receiving digital audio from the networked audio distribution node and or other networked integrated control nodes in the audio distribution system with a network connection, said network connection couples to said control processor;
- transmitting analog audio to the local speaker through a speaker output connection, said speaker output connection couples to said control processor;
- receiving, processing, and transmitting analog and or digital audio between said network connection and said speaker output connection through a sound processing unit with an integrated amplifier, said sound processing unit couples to said network connection and said speaker output connection; and
- receiving analog audio through a microphone that is coupled to said sound processing unit.
10. The claim of claim 9 wherein said control information further comprises voice activated commands.
11. The claim of claim 9 further comprising a local audio I/O connection that couples to said control processor, said local audio I/O connection transmits and receives digital audio or analog audio to and from the local audio device, said control processor uses said local audio I/O connection to transmit and receive control information to and from the local audio device, said local audio I/O connection couples to said sound processing unit.
12. The claim of claim 9 wherein said digital audio further comprises VOIP.
13. A program storage device readable by a computing device that tangibly embodies a program of instructions executable by the computing device to perform a method to use a networked intercom node for a networked audio distribution system, where the system includes one or more networked audio distribution nodes and one or more networked intercom nodes, comprising:
- using a control processor that further comprises a flash upgradeable memory, a control surface that receives control information, IR/RF transceivers for transmitting and receiving control information, and a display device that displays control information, said control processor uses web services to control the networked audio distribution node and or other intercom nodes in the audio distribution system;
- transmitting and receiving digital audio from the networked audio distribution node and or other networked integrated control nodes in the audio distribution system with a network connection, said network connection couples to said control processor;
- transmitting analog audio to the local speaker through a speaker output connection, said speaker output connection couples to said control processor;
- receiving, processing, and transmitting analog and or digital audio between said network connection and said speaker output connection through a sound processing unit with an integrated amplifier, said sound processing unit couples to said network connection and said speaker output connection; and
- receiving analog audio through a microphone that is coupled to said sound processing unit.
14. The claim of claim 13 wherein said control information further comprises voice activated commands.
15. The claim of claim 13 further comprising a local audio I/O connection that couples to said control processor, said local audio I/O connection transmits and receives digital audio or analog audio to and from the local audio device, said control processor uses said local audio I/O connection to transmit and receive control information to and from the local audio device, said local audio I/O connection couples to said sound processing unit.
16. The claim of claim 13 wherein said digital audio further comprises VOIP.
Type: Application
Filed: Apr 16, 2010
Publication Date: Aug 5, 2010
Applicant: CLEARONE COMMUNICATIONS, INC. (SALT LAKE CITY, UT)
Inventor: Michael Braithwaite (Austin, TX)
Application Number: 12/761,506