Not Applicable
The present invention relates generally to telephony, and more particularly to commercial intercom telephone systems with a “Call Down” feature. Additionally, this invention relates to commercial intercom telephone systems where a resident has chosen not to have traditional telephone services, but instead utilizes the standard building telephone wiring in order to be connected to a building intercom service. Even more specifically, this invention relates to telephone systems in which an intercom service is provided, and the resident telephone requires power in order to operate, and where there is also a requirement for this power to be automatically applied or removed when standard telephone service is activated or cancelled.
No-phone-charge intercom systems in multi-resident buildings have existed for many years. The two primary systems are “hard wired” and “telephone intercoms”. The telephone intercom systems utilize the standard telephone wiring to each resident, so that the resident's standard telephone is used for both standard telephone service and intercom service. The primary function of the intercom system is to allow internal building communication in multi-resident structures without incurring charges from the telephone company. Currently there are two main types of telephone intercom systems. The first type is a “call up” telephone intercom system where the subscriber uses a telephone to provide visitors entry into the building without having to walk to the entrance and open the door. The second type is the “call up and call down” system where the subscriber not only uses a telephone to provide visitors entry into the building, but can also use the telephone to call down to another station to initiate an intercom telephone call with a limited number of door attendant/concierge/valet/management office telephones. Intercoms that allow the resident to initiate an intercom call require that the resident's telephone have a minimum operating voltage on its telephone line. Traditionally, a telephone company Central Office (CO) supplies this operating voltage.
With the increasing popularity of cellular and broadband telephone services, it is becoming more commonplace for multiple resident buildings to have various forms of telephone services. If the resident is only using cellular telephone service, the intercom telephone system will no longer be supplied power from the CO. In order for the intercom call to be initiated by the resident, the resident's telephone must continually have a minimum amount of operating voltage across the phone line.
In view of the above, a need exists for a system and method for connecting or disconnecting an alternative operating voltage power source to the resident phone line circuitry when needed.
The general objective of the present invention is to provide an automatic fail safe method of connecting or disconnecting alternative power to standard resident telephones without interfering or interacting with the power supplied or cancelled by the telephone company central office. The method is implemented by an automated system in which an intercom power application is provided to supply an alternative operating voltage to resident telephone lines.
The system includes a microprocessor, an alternative power source, a plurality of “voltage and current sensing circuits,” and a plurality of voltage selection switches. A voltage and current sensing circuit is individually coupled to each resident telephone line to monitor voltage and current levels provided by the telephone company central office. The microprocessor controls the voltage selection switches to connect or disconnect the alternative power source to and from the resident telephone line. The operation of the voltage selecting switches is based on signals received from the voltage and current sensing circuits. The microprocessor assures the proper timing of switching.
This brief summary has been provided so that the nature of the invention may be understood quickly. A more complete understanding of the invention can be obtained by reference to the following detailed description of the preferred embodiments thereof in connection with the attached drawings. Detailed descriptions of known functions and configurations incorporated herein have been omitted for clarity and conciseness.
The above and other objects, features, and advantages of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings in which:
The following detailed description is of the best currently contemplated modes of carrying out the invention. The description is not to be taken in a limiting sense, but is made merely for the purpose of illustrating the general principles of the invention, since the scope of the invention is best defined by the appended claims.
According to the present invention, a system and method for automatically connecting and disconnecting an alternative power source to and from intercom telephone lines is provided. Although the system and method of the present invention is described as being implemented in a multi-resident building, those skilled in the art will recognize that the principles and teachings described herein may be applied to a variety of structures using a commercial intercom telephone system, such as a hotel or ship.
Turning to
Telephone lines 105 from the CO are input into the voltage/current sensing circuit 10 which comprises a current-to-voltage converter 102A for receiving a current signal from the CO and converting the current signal to a voltage signal, a signal amplifier 102B for amplifying the voltage signal, and a voltage selection switch/latch 104 for connecting and disconnecting the alternative power source 103 to the resident telephone line 106.
The alternative power source 103 comprises a 24V AC power supply 118 and a DC converter power regulator 114, such as a 78L05. The AC power supply 118 is conventional, and it may include a step-down transformer (not shown) that receives standard 110V AC voltage on its input side. The output of the AC power supply 118 is input into the DC converter power regulator 114, which converts the 24V AC to 24V DC. The 24V DC is then supplied to a current limiter 117, which, in turn, supplies a signal to the voltage selection switch 104, causing the switch to position itself so that the alternative power source is connected to the resident line 106. The microprocessor 101 continuously monitors the status of the operating voltage of the CO to the telephone line 106 by sampling the current flowing through an opto-coupler 111 (see
To ensure an accurate reading, the microprocessor 101 requires sixteen consecutive identical samples, with each sample taken at spaced intervals of approximately 3 seconds, before it initiates switching of the voltage selection switch 104. This finite impulse response (FIR) filter type is provided to prevent glitches and non-representative signal changes from triggering the activation of the voltage selection switch 104.
The sample timer 107 determines the sampling rate of the microprocessor 101 by sending a timing signal to the microprocessor 101 via the latter's IRQ port, causing the microprocessor 101 to restart CO line scans. A light emitting diode LED1108 (such as a 1N914 as shown in
When the microprocessor 101 detects a change of CO power, it initiates a process to change the position of the voltage selection switch 104. This process includes changing the I/O configuration and asserting predetermined logic values to a relay coil terminal of the voltage selection switch 104, while observing a predetermined sequence of operation to avoid timing conflicts. Following a system power-up, the voltage selection switches 104 are in their default position, connecting CO power to a resident phone line 106. To change a voltage selection switch 104 from CO power to alternative power requires energizing the relay coil of the voltage selection switch by asserting logic “1” on a relay line (e.g., the line RLY1 in
As best shown in
Tcycle=0.693×C6×(R40+2×R39) Equation (1):
The internal circuitry of each of the voltage/current sensing circuits 110 is illustrated in
Table 1 below identifies the preferred values of the resistors and capacitors (described above) in a preferred embodiment of the present invention.
In step S201, at first power up, the voltage selection switches 104 default all channels (e.g., twelve channels) to the CO mode.
In step S202, the sample timer 107 is armed (automatically reset), and the LED 108 indicator is turned off.
In steps S203 and S204, the system 100 is idling for 3 seconds.
In step S205, the telephone line sampling process begins, and the LED 108 indicator is turned on.
In steps S206 thru S209, lines are sampled sequentially, and the results of the last 16 samples for each of the twelve lines, designated as ‘N’ channels, get stored in the microprocessor 101.
In step S210, it is determined if the last 16 samples were all the same. If the samples were all the same, the process continues at step S211. Otherwise, the process proceeds to step S203 if the samples are inconsistent.
In step S211, it is determined if a change occurred in CO service status by testing it against the previous known state of the relay, such as a G6KU-2F in the voltage selection switch 104. If there is a change, the microprocessor 101 initiates switching of the appropriate voltage selection switch 104 in step S212. Otherwise, the process proceeds to step S213.
In step S212, a voltage selection switching is performed to match line service requirements.
In step S213, it is determined whether all 12 telephone lines were scanned. If scanning is incomplete, the next phone line is scanned in step S207. Otherwise, the process proceeds to step S202 to arm a new scan cycle.
While the invention has been shown and described with reference to a certain preferred embodiment thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
This application claims the benefit, under 35 U.S.C. § 119(e), of co-pending Provisional Application No. 60/694,771, Filed Jun. 28, 2005, the disclosure of which is incorporated herein by reference.
Number | Date | Country | |
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60694771 | Jun 2005 | US |