Abstract:
A wide area fire safety and detection system is disclosed. The system includes a control node configured to execute a first detection routine, wherein the control node has a network interface, and an amplifier having an audio output, wherein the amplifier is configured to communicate the audio output to a plurality of fire safety nodes. The system further includes a remote node in communication with the control node, wherein the remote node has a network interface configured for communication with at least the network interface of the control node, and an audio converter configured to receive the audio output and generated a converted audio output, wherein the converted out is compatible with a microphone input.

Description:
PRIORITY CLAIM 
       [0001]    This patent document claims the priority benefit provided under 35 U.S.C. §119(e) to U.S. provisional patent application Ser. No. 61/080,789, filed on Jul. 15, 2008. The content of this provisional patent application is incorporated herein by reference for all purposes. 
     
    
     TECHNICAL FIELD 
       [0002]    This patent generally relates to an exemplary fire safety system, and specifically to the conversion and distribution of emergency audio through the exemplary fire safety system. 
       BACKGROUND 
       [0003]    Known fire alarm monitoring and reporting systems typically utilize proprietary and/or customized techniques, formatting and encoding for the distribution of audio communications throughout a wide area alarm and/or monitoring network. This proprietary and customized formatting of information may further complicate integrating technologies and components of different fire monitoring and reporting systems which may occur during, for example, system maintenance cycles, system upgrades or simply when two or more systems are to being combined or organized into a single integrated system. Moreover, some known systems simply do not include the desirable functionality. For example, some known systems or integrated cluster of systems make lack the functionality or interoperability necessary to implement global or system-wide paging or communication. 
       SUMMARY 
       [0004]    In one exemplary embodiment, a wide area fire safety and detection system is disclosed. The system includes a control node configured to execute a first detection routine, wherein the control node has a network interface, and an amplifier having an audio output, wherein the amplifier is configured to communicate the audio output to a plurality of fire safety nodes. The system further includes a remote node in communication with the control node, wherein the remote node has a network interface configured for communication with at least the network interface of the control node, and an audio converter configured to receive the audio output and generated a converted audio output, wherein the converted out is compatible with a microphone input. 
         [0005]    In another exemplary embodiment, an audio converter is disclosed. The audio converter includes a first audio input configured to receive a first audio output from a first amplifier, a second audio input configured to receive a second audio output from a second amplifier, an audio converter module configured to convert the first audio output from a first audio format to a second audio format and configured to convert the second audio output from a third audio format to a second audio format, and an audio output configured to communicate a third audio output in the third audio format to a microphone input. 
         [0006]    In another exemplary embodiment, a method of audio communication is disclosed. The method includes receiving a first audio input provided by a first audio output of a first amplifier, receiving a second audio input provided by a second audio output of a second amplifier, converting the first audio output from a first audio format to a second audio format, and converting the second audio output from a third audio format to the second audio format, and communicating a third audio output in the second audio format to a microphone input. 
         [0007]    Other embodiments are disclosed, and each of the embodiments can be used alone or together in combination. Additional features and advantages of the disclosed embodiments are described in, and will be apparent from, the following Detailed Description and the figures. 
     
    
     
       BRIEF DESCRIPTION OF THE FIGURES  
         [0008]      FIG. 1  illustrates an embodiment of an exemplary fire alarm monitoring and reporting system configured according to the teaching provided herein; and 
           [0009]      FIG. 2  illustrates an exemplary flowchart of the operation of the system shown in  FIG. 1 . 
       
    
    
     DETAILED DESCRIPTION  
       [0010]    The present patent and disclosure presented herein address the limitation and shortcomings of the known fire alarm and monitoring systems. In one embodiment of a fire alarm monitoring and reporting system is a FireFinder XLS (XLS) provided by SIEMENS BUILDING TECHNOLOGIES of Buffalo Grove, Ill. In particular, the exemplary embodiment disclosed herein provides the ability to connect a live or global paging microphone across multiple XLS voice systems. Moreover, the teaching or disclosure provided herein may be utilized to interconnect multiple previously-incompatible known fire alarm monitoring and reporting systems to provide the desirable live or global paging capability. 
         [0011]      FIG. 1  illustrates an embodiment of an exemplary fire alarm monitoring and reporting system  100  configured according to the teaching provided herein. The system  100  includes a primary or control node  102  in communication with a plurality of secondary or remote nodes  104  to  108 . The control node  102 , in this exemplary embodiment, may be a rack-mounted and/or expanded controller utilizing one or more processors in communication with a memory having executable instructions stored thereon. For example, the memory may be a hard drive, RAM or ROM configured or programmed to store instructions necessary to operate the control node  102  (and/or remote nodes  104  to  108 .) In another embodiment, the control node  102  may be a single integrated device utilizing special purpose hardware, expansion cards or other known analog or digital elements. 
         [0012]    The control node  102  may further include an amplifier  102   a  configured to generate an audio output  110  to drive or otherwise activate one or more speakers such as the emergency indicators  112   a  to  112   d.  The control node  102  may further include a second amplifier  102   b  to drive or otherwise communicate a global paging output  114 . Alternatively, the audio output  110  may be split and utilized to drive the global paging feature provided by the exemplary fire alarm monitoring and reporting system  100 . 
         [0013]    The control node  102  may further include a network interface or communication module  102   c  configured to provide communications throughout the exemplary fire alarm monitoring and reporting system  100 . For example, the communication module  102   c  may provide addressable communications between the plurality of secondary or remote nodes  104  to  108 . The communications between the plurality of secondary or remote nodes  104  to  108  may be conducted according to TCP/IP or other known networking and/or wireless (e.g., 802.15, 802.11x) communications standards. 
         [0014]    The control node  102  (via the communication module  102   c ) may be arranged in communication with the secondary or remote node  104  via a communication module  104   c.  The communication, data, status and control information may be transmitted via a line or cable  116  such as a two-wire arrangement, Ethernet cable or other known communication mechanism. 
         [0015]    The control node  102  may further communicate with the remote node  104  via the global paging output  114  communicated or outputted by the amplifier  102   b.  The global paging output  114  may, in turn, be received by an audio converter  104   d  (AC). The AC  104   d  may be a card, module or other device configuration. 
         [0016]    The AC  104   d  allows the amplifier  102   b  from, for example, one XLS system such as the control node  102 , to be used as a source of global paging audio. The global paging output  114  of the amplifier  102   b  connects to an input of the AC  104   d  or the equivalent deployed in each of the remote node  104  to  108 . The AC  104   d  may include a pass-through port  104   e  to provide or communicate the global paging output  114  to the remaining remote nodes  106  and  108 . The AC  104   d  then provides and converts the incoming speaker level audio signal to a low level signal  118  that is compatible with an audio input module or card  104   e  (AIC). The AC  104   d  may prioritize the communication of a given output based on, for example, the presence or absence of an active signal and/or detection of on-board faults or problems. The AIC  104   e  can then selectably connect the audio from the global paging input to the local paging channel of the fire alarm monitoring and reporting system  100 . In alternate embodiments, the AC  104   d  may configured to convert the output from any wattage (e.g., 30W, 40W and 180W) amplifier or from any format or type of output received from one or more system utilizing a different protocol or communication format. In some embodiments, output(s) of the AC  104   d  may be isolated from the host system  100  with DC/DC converters and optocouplers (not shown). This configuration provides isolation between the source amplifier  104   b  at the global paging station  102  and the remote paging stations  104  to  108 . 
         [0017]    The AC  104   d  minimizes the design, manufacturing and maintenance impact on the fire alarm monitoring and reporting system  100 . The exemplary global paging configuration utilizes existing amplifiers and audio input cards or their equivalents in the various nodes of the fire alarm monitoring and reporting system  100 . Thus, global paging capability can be added to existing fire alarm monitoring and reporting systems without the need to modify or upgrade hardware. The global paging capability may be controlled and directed to specific speaker or system zones utilizing commands and/or control instructions communicated and received via communications modules  102   c  and  104   c,  respectively. 
         [0018]    In a typical system configuration, AC  104   d  may be configured to utilize as many existing pieces of the fire alarm monitoring and reporting system  100  as possible. The AC  104   d  may be utilized as the source of paging audio for a given voice system. Amplifiers  102   b  and  104   b  such as, for example, ZAC-40, ZAM-180, and ZAC-30 amplifiers provided by SIEMENS BUILDING TECHNOLIGIES, may be utilized to connect any system audio, including paging, to the speakers (e.g.,  120   a  to  120   d ) in a building. In this way, the AC  104   d  allows the output of the amplifier  102   b  to connect to an input of the AIC  104   e.  This connection is transparent to the fire alarm monitoring and reporting system  100  and requires little or no additional development software or configuration to enable basic functionality. In this way the output of the control node  102  can be connected to any remote node  104  to  108  and AC  104   d  to  108   d.    
         [0019]    The AC  104   d  may be implemented according to, for example, UL 864 section 34.2.3.1, as an all-analog card. The all-analog nature of this implementation may limit fault or other data communication thereby requiring communication of more data via the network established by the network interface communication modules  102   c  to  104   c.  The AIC  104   e  may supervise or monitor the low level signal  118  to detect the loss of audio conditions or other communications problems. The AC  104   d  may further provide visual status and monitoring information also reports faults visually. 
         [0020]    In order to implement this approach, the AC  104   d  must output an audio signal of sufficient amplitude to the input of the AIC  104   e.  The AC  104   d  may also provide a dry contact for the AIC  104   e  that indicates the presence of live paging audio. This contact closure may signal the presence of a signal or communication for transmission. In one embodiment, the AIC  104   e  reports faults to the overlying system  100 . The input(s) to the AC  104   d  may be, in turn, supervised and reported by the originating amplifiers  104   b.  In addition, the AC  104   d  may supervise itself, display faults visually, and report a fault by cutting the supervisory signal to the AIC  104   e,  which subsequently reports the fault, as described above. 
         [0021]    Each of the remote nodes  106  and  108  may further be in communication with the control node  102  and remote node  104 . The remote nodes  106  and  108  may be disposed in remote cabinets connected to the main system via communication modules  102   c  to  108   c  that may provide for both control and audio buses and/or communications. The remaining remote nodes  106  and  108  may receive and pass-through the global paging output  114  via AC  106   d  and  108   d  that may provide for both control and audio buses and/or communications to, for example, AIC  106   e  and  108   e,  respectively. The remaining remote nodes  106  and  108  may further include amplifiers  106   b  and  108   b.  The amplifiers  106   b  and  108   b  may be configured to drive speakers  122   a  to  122   d  and  124   a  to  124   d.  In an alternate embodiment, it may be desirable to communicate the global paging output  114  over the same medium utilized to drive the speakers  122   a  to  122   d  and  124   a  to  124   d.    
         [0022]      FIG. 2  illustrates a flowchart  200  representative of the operation of an exemplary wide area fire safety and detection system. At block  202 , a signal representative of an audio input signal or communication may be received at the exemplary wide area fire safety and detection system. At block  204 , information carried or provided via the received audio input signal may be detected and evaluated to determine the communication format and/or information carried therein. At block  206 , the received and evaluated audio input signal may be converted into a different communication format or protocol and/or a different wattage or power level. At block  208 , the converted communication may be communicated, in a receivable and/or usable format, to a microphone input. 
         [0023]    It should be understood that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present invention and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.