CA1175172A - Key telephone area voice paging circuit and method - Google Patents

Abstract

KEY TELEPHONE AREA VOICE PAGING CIRCUIT AND METHOD
Abstract of the Disclosure An area voice paging feature is provided in a key telephone system wherein key telephone station sets each have a loudspeaker circuit responsive to a d.c. control signal, on an associated signalling path, to audibly reproduce voice band signals superimposed on the d.c. control signal. A page control interface circuit generates a page control signal in response to receiving the d.c. control signal, when the d.c. control signal is directed to the interface circuit on one of the signalling paths, and generates a d.c. biased voltage signal having an a.c.
component corresponding to the voice band signals. Page switches each have an output connected in common with a predetermined respective one of the signalling paths and are each responsive to the page control signal to couple the d.c. biased voltage signal to the respective signalling path.
Each loudspeaker circuit, in a group as selected by the page switches, receives the d.c. biased voltage signal and produces an audible signal corresponding to the a.c. component. In the case where one of the signalling paths is already in use, this is indicated by the presence of the d.c. control signal on the signalling path. In this event, a logic circuit in the page switch senses the prior presence of the d.c. control signal and the d.c. biased voltage signal is prevented from being coupled to the already occupied signalling path.

Description

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The invention is in -the field of key telephone systems and more particularly relates to providinq for voice paging of plural ke,y telephone station sets in a key telephone system.
One of -the features typically characterizing a key telephone system is an intercom feature. The intercom feature permits users of key telephone station sets to be in direct commllnication with one another by way of an intercom Path provided hy a local intercom lead pair. The local intercom lead pair is routed through the key telephone system so as to be accessible by various of -the key telephone station sets as required. The intercom path is separate from any central office facilit,y and includes associated circuitry for generating and routing appropriate signalling tones in resPonse to supervisory states of the intercom lead pair and in response to dialling signals. Intercom call ringin~ signals are -typically generated in the form of tone siqnals audibly produceable by a loudspeaker in the called key telephone station set. In one arrangement a calling party is optionally permitted to voice page the called party. This feature is provided by means of a switch for connecting the local intercom pair to the associated routing circuitry, such that a one-way voice path is established from the key telephone station set transmitter of the callinn party to the loudspeaker in the called party station set, whereby the loudspeaker reproduces the calling party's voice. The voice paging feature has proven to be very popular in key telephone systems. It is particularly useful in a situation where several persons normally share a key telephone station set at one location. In this situation the person to whom the intercom call is being directed is immediately identified without one of the several persons first having to answer the intercom call to determine the identity of the called person.
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~ 3L'7S~72 A ~ey telephone system including the intercom voice paging feature is described in Uni-ted States Patent r10. 4,293,740 issued on October 6, 1981 to Donald Edwin Clement ancl m~yself. An advantage of this system is that the voice pagin(l is locali7ed at the station set so as to leave persons beyond the immediate area substantially undisturbed. One disadvantage of -this system is that if a paged person is out of hearing range of the station set, the person will not likely be made aware of the intercom call. However if an area paging feature is provided, the calling party has the option of paging the called person over the wider area and In so alert that person to the call. In one arrangement of an area paging system, one or more area paging loudspeakers, separate from any of the key telephone station sets, are driven with substantial power to effect voice paging over a wide area. If only one or two such loudspeakers are used, voice paging sound volume sufficient to be adequately perceptable over the whole area, is often extremely uncomfortable for persons in the immediate area of the loudspeaker. This problem can be overcome by using many loudspeakers distributed throughou-t the area. In any case the provision of wide area voice paging as described above is a substantial expense in addition to the cost of the key telephone system.
It is an object of the invention to provide an area voice paging circuit for a key telephone system wherein a network with signalling ports is used to transmit a.c. voice band signals superimposed on a d.c. control signal to loudspeaker circuits each residing in in an associated key telephone station set, each loudspeaker circuit being selectable via one of the signalling ports.
In accordance with the invention, the area voice paging circuit includes a page control interface circuit for qenerating a page siqnal in response to receipt of a d.c. control signal via a signalling switch network, and for generating d.c. biased voltaqe siqnals correspondinq to the siqnals received via the signalling switch network.
A plurality oF paqe switches each have an output terminal connected in common with a respective one o-f a plurality of signalling ports. The page switches are each responsive to an assertion of the paqe signal from the page control interface circuit, for couPling the d.c. biased voltaqe siqnal from the control interface circuit to a respective one of the signalling ports, for use in a loudspeaker circuit in a key telephone station set connected to the signalling port.
In accordance with one aspect of the invention, each page switch is provided by a transmission gating circuit. The transmission gating circuit comprises a transmission qate having input, output and cor,trol terminals. The transmission gating circuit is responsive to a d.c. voltage at the control terminal to provide a transmission path between the input and output terminals. A loqic circuit is connected hetween the output terminal, the control terminal and a control port. The logic circuit is responsive to a d.c. control voltage being asserted at the control Port to pass -the d.c. control voltaqe to the control terminal, 2n except in an instant where a d.c. voltage is already present at the output terminal. Thus in the presence of a d~co voltage being applied at the output terminal from another source, a transmission path is not provided between the input and output terminals.
The invention also provides a method for performing an area page across a group of 70udspeaker circuit ecluipped key telephone sta-tion sets in a key telephone system, wherein individual ones of the loudspeaker circuits are activated in response to a predetermined d.c. siqnal supplied .

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~'7S~72 on respective ones of si~nalling leads. The method comprises the step of applying area ~aqe signals to a group of transmission gates, the area page signal comprising a voice band signdl superimposed on a d.c. control signal. One of d busy and an idle state is determined for each associa-ted siqndlling lead. A page control siqnal is generated to cause each of the transmission gates to pdSS the area page signals to each respective signalling lead. In the instance of the busy state being determined on one of -the signalling leads prior to generation of the pdge control signal, the associated transmission gate is maintained at a higher impedance than that required to pass the area page signal. In the instance of the idle state being determined, the transmission gate impedance is reduced to allow passage of the page signal. A first occurring audible signalling messaqe is thus transmit-table via a selected signalling lead in the key telephone system without interference from a subsequently concurrent attempt to transmit the area page signal.
An example embodiment is described with reference to the accompanying drawings in which:
Figure 1 is a block schematic diagram of a key telephone system havinq an area paging feature in accordance with the invention;
Figure 2 is a schematic diagram of page control interface circuit used in figure 1; and Figure 3 is a schematic diagram of one page switch in a group of page switches used in figure 1.
The structure and operation of the example embodiment will become apparent in the following functional description. In the description, with reference to fiqure 1, a typical intercom feature in the key telephone system is first described. Thereafter and with reference to ~7~

figures 1, 2 and 3 the area paging feature in the key telephone system is descrihed.
Referring to figure l, the key telephone system is illustrated to show the structllre as it relates to -the intercom feature and the area paging feature. The key telephone system includes a plurality of key telephone station sets ~KrSSs) lOa through 10n of which KTSSs lQa and lOn are shown. Each KTSS includes a loudspeaker circuit 11 connected to a loudspeaker 12. The basic function of the loudspeaker circuit 11 is to amplify signallinq for audible production by the loudspeaker 12. As has been described in the previously mentioned U.S.
patent No. 4,293,740, the loudspeaker circuit 11 is controllable to alternately function as a microphone amplifier. Each of the KTSSs lOa through lOn is associated with a plurality of communication lead pairs of which an intercom lead pair 16 is shown. Each of the KTSSs 1na - 10n normally includes a handset, a hook switch, a dialling device and various switch keys including at least one intercom key, not shown. The intercom lead ~air lh is connected to a hook state and dialling detector circuit 20 which supplies the intercom lead pair with operating current. The hook state and dialling detector circuit 20 also supplies control signals to a tone generator 21 and to a siqnalling switch network 18. When one of the key telephone station sets, for example 1na, goes OFF HOOK with its intercom key depressed, it is connected to the intercom lead pair and receives energizing current therefrom. A line relay, not shown in the detector circuit 2n, operates in response to the flow of enerqizing current causing the control signals to be generated~ The tone generator 21 is responsive to the control signals to generate appropriate tone signals audible to the user of a KTSS during the progress of an intercom ' '' ` ' 1~l'75~

call. The tone si~nals are conducted to the calling key telephone station set via a capacitor 22 and the lead pair 16 for receipt at the handset.
The called party is identified by dialled digits which are detec-ted by the hook state and dialling detector circuit 2n. nialling information is transferred to the signalling switch network 18 which accordingly provides a signallinq path via a siqnalling port cor,nected to one of lead pairs 17b through 17n to -the called key telephone station set for coupling tone signals to its loudspeaker circuit 11. Any one of the KTSSs 10b - 10n ac~ively connected with the lead pair 16 and going OFF HOOK increases the energizing current on the lead pair 16. This increase in current is detected by the hook state and dialling detector circuit 20 which causes the tone generator 21 to be deactivated, and the signalling path in the si~nalling switch network 18 to be severed. Conversation between the two OFF HOOK KTSSs proceeds in a normal manner via the intercom lead pair 16 An intercom hands free feature is provided by a hands free answer coupling circuit ~0 connected between the intercom lead pair 16 and the signalling switch network 18. Cy this means, voice signals are transferable between the in-tercom lead pair 16 and a called key telephone set 10 via the signalling switch network 18 and the associated loudspeaker circuit 11. A hands free answer control circuit 45 responds to signals from the hands free answer coupling circuit 50 to generate control signals for controlling the loudspeaker circuit 11 in the called KTSS to yield transmit and receive functionc.. It should be noted that a selected one of the signalling paths 17a - 17n is now used for three functions. The first being the previously described function of signalling, the second being the transmission of voice for the hands free answer function, and the third being the transmission of the control 75~7~

signal 5 for the receive and -transmit modes of operation of the loudspeaker circuit 11 .
Referring to figure 1 in more detail, one side of -the hands free answer coupling cicuit 50 is coupled to the intercome lead pair 16 via a make contact 41. The other side o-f the hands free answer coupling circuit 5n is connected to a junction 24 by a make contact 46. The output of the tone generator 21 is also connected to the junction 24 by the cdpacitor 23. A signalling lead l9 is connected in series with a make contact 42 between the hands free answer control circuit 45 and the signalling switch net~lork 18 to carry a.c. voice band signals and d.c.
control signals. The relay contacts 41 and 42 are associated in operation with the line relay in the hook state and dialling detector circuit 20.
The make contact 46 is associated with the hands free answer control circuit 45. llith the handset in the calling KTSS lOa being OFF HOOK, the line relay is operated causing the make contacts 41 and 42 to be closed.
As previously described, dialled digits cause the signalling switch network 18 to estahlish a communication path to the dialled one of the remaining KTSSs lOb - 1nn. Depression of a hands free answer key 55 in the selected one of the KTSSs maintains a negative d.c. voltage on the 2n lead 19 at a more positive potential than normal. This condition is detected by the hands free answer control circuit 45 which causes the make contact 46 to be closed. Voice siqnals from the calling party's handset are transmitted via a communciation path which includes the intercom leads 1~, the hands free answer coupling circuit 50, the hands free answer control circuit 45, the signalling switch network 18 and one of the selected leads 17b - L7n to the called KTSS. At the same time a d.c.
current of about 1 milliamp is drawn from the loudspeaker circuit ~l7~72 11 in the called KTSS to effect con-trol by the hands free answer control circuit 45. In the absence of significant voice band signals from the calling party's hand set, the hands free answer control circuit draws an additional 3 milliamps from the loudspeaker circuit 11, causing it to be in a transmit mode of operation. When the called KTSS goes OFF ~IOOK, a normal intercom connection is established over the intercom lead pair 16 with the make contacts 41, 42 and 46 being opened. At the same time the signalling switch network 18 is caused to sever the previously established communication path.
In order to provide for the area paging feature, the signalling switch network 18 includes signalling ports connected to signalling leads 17n + 1, 17n + 2 and 17n + 3, which are in turn connected to a page control interface circuit 100. The page control in-ter-face circuit 1nn provides a current path on a selected one of the signalling leads 17n + 1, 17n + 2, or 17n + 3, and at the same time asserts a control voltage at a respective one of group page switches 101 and 1n2 via one of leads 103 and 104. At the same time the a.c. signals from the selected signalling lead are amplified in the page control interface circuit 100 and distributed to both of the group page switches 101 and 102 via a lead 105. The d.c. control function originating in the hands free answer control circuit 45 is in effect relayed on through the page control interface circuit 1nO and the selected page switches, to activate the associated loudspeaker circuits 11 and cause audible reproduction of the voice signals from the calling party's handset.
Referring to figure 2, the page control interface circuit is illus-trated in more detail. The page control interface circuit includes two identical page buffer circuits (PC) 100a and 100b, and a power 1~L75~L7Z

amplirier system, for proving the a.c. signals superimposed on a d.c.
voltage from a source impedance low ennugh -to drive all the loudspeaker circuits 11 in the KTSSs. Each of the PCs includes an input, connected -to a respective one of the si~nalling leads 17n + 1 and 17n + 2, and each includes an input connected in common to the siqnalling lead 17n + 3 via an external resistor 106. Each of the page circuits also includes an output connected to a respective one of the group page switches 1n1 and 102. A negative voltage for example appearing on the lead 17n + 1, results from the hands free answer control circuit 45 attempting to sink current from the lead 19. This causes a diode 114 in the PC 100a to be forward biased such that the required current flows from ground via resistors 122 and 121 and a lead 120. A similar diode in the PC 100b is also connected to the lead 120~ AC signals from the signalling lead 17n +
1 are couPled to a power amplifier 124 via a capacitor 123 which is connected between the amplifier 124 and the ~junction of the resistances 121 and 122. A voltage divider network 125 is connected between ground and a negative voltage supplied at -V. The voltage divider network 125 includes voltage taps 126 and 127. The voltage tap 126 is connected to a non-inverting input of a comparator 112 in each of the PCs 100a and 100b.
The voltage tap 126 is also connected to a threshold detector 130 such that when a voltage on the lead 120, also connected to the threshold detector 130, is more negative than the potential at the voltage tap 126, an output of the threshold detector 130 becomes negative. In this condition, potential at the output of the threshold detector 130 is determined by a potential at the voltage tap 127 which is connected in series with a diode 128. The cathode of the diode 128 is also connected to a resistor 116 in each of the PCs 100a and 10nb via a lead 129, and ~1'75~
to an input of a delayed switch 131. The delayed switch 13l responds to a transition from ground to the negative potential by causing the power amplifier 124 to be active a predetermined time later. This delay is arranged to be an appropriate length for switching operations to be complete, such that any resulting noise signals are subs-tantially prevented from appearing at an output of -the power amplifier 124, on the lead ln5. When in an active s-tate, the power amplifier 124 amplifies a.c.
signals received through the caPacitor 123" to generate a d.c. biased voltage signal. This siqnal comprises a.cO voltage signals, corresponding to the received a.c. signals, superimposed on a predetermined negative voltage. The potential of the predetermined negative voltage is determined by a network, not shown, in the amplifier 124. The d.c. biased voltage signal is distributed on the lead 105 and is at a potential sufficient to cause each of the loudspeaker circuits 11 receiving it to be in the receive mode of operation, as will be described later.
In each of the PCs 100a and 100b, a protection network including a diode 115 connected in series with a Zener diode 116, is connected between ground and the respective signalling lead, in order to limit any positive voltage sPikes which may be induced on the respective signalling lead. A resistor 118 couples the ootential of the lead 129 to the junction of the diodes 115 and 116 so that they are both reverse biased when one of the PCs 100a and 100b is active. In PC 1nOa the siqnalling lead 17n + 1 is connected in series with a resistor 111 to an inverting input of the comparator 112. Likewise the signalling lead 17n + 2 is connected to the corresponding comparator in the PC 100b. l~hen the potential on a signalling lead 17n + 1 or 17n + 2 becomes more negative than the potential of the v~ltage tap 126, the corresponding comparator ' :

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output changes from a negative potential to a near qround potential, to activate the respective group of pa~e switches. The inverting input of the comparator 112 is also connected via a diode 119 to the resistor 106, such that a negative voltage on the lead 17 + 3 causes each of the comparators 112 to have outputs of near qround potential to activate both 101 and 102 group page switches at the same time.
Referring to figure 3 a group of page switches (PS) is connected with one of the page circuits 100a and 100b, via a control port 143. ~ach of the paqe switches includes a transmission gate 140 having an input connected to the lead 105 and an output connected in current aiding series relationship with a diode 141 to a predetermined one of the signalling leads 17a - 17n, in figure 1. The signalling leads 17a - 17n each consist of a driven lead and a ground return lead in a twisted pair arrangement. In each case connection is to the driven lead and usually physically ad~jacent the signalling switch network 18. A diode 142 is connected in a normally current blocking series relationship between the cathode of the diode 141 and ground. The diodes 141 and 142 provide for protection against induced voltage spikes which would otherwise possibly damaye the transmission gate 140. A resistor 144 is connected in series between the control Port 143 and a control terminal 145 of the transmission gate 140. In operation a negative control voltage at the control port 143 is conducted via the resistor 144 to the control terminal 145, causin~ the transmission gate to have an impedance sufficient to block signals on the lead 105. When the voltage at the control terminal 145 is allowed -to approach ground, the transmission gate 140 passes the d.c. biased voltage signal on the lead 105, by providing a low impedance path to the associated lead 17 via -the diode 141.

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A loqic circuit includes a capacitor l46, a diode 147 a comparator 148 and a resitance 149, connected as shown. In this example the comparator 148 is characterized hy an open collector ou-tput which effectively utilizes the resistor 144 as a load resistor. The logic circuit functions to prevent the transmission qate 140 from becoming conductive in the event that the associated lead 17 is already busy as a result of an in progress intercom loudspeaker call originating from a second intercom circuit not shown. The busy signalling lead 17 must necessarily be of a negative potential in order that the associated louds~eaker circuit 11 be operative, as is described in the previousl~Y
mentioned U.S. patent No. 4,293,740. This aspect of operation in the key telephone system is utilized at the comparator 148 to hold the control terminal 145 at a negative potential. However in the case where the lead 17 is in an idle state, that is, at a near ground potential, and the output of the comparator 148 is at a similar potential due to the potential of the control port 143, a near ground potential is then coupled by the diode 147 to the non inverting input of the comparator 148 thus preventing the subsequently appearin~l negative voltaqe from the output of the transmission qate 140 from having any effect in the page switch.
The followinq sequential logic table further demonstrates the operation of each of the page switches.

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CONTROL nlJTPUT GATE 140 PORT TERMINAL IMPEDANCE
- Volts O Volts HIGH
- Volts - Volts HIGH
- Volts to O Volts - Volts HIGH
~0- Volts to O VoltsO Volts to - 'lolts LO~I
O Vol-ts- Volts to Q Volts -to - Volts HIGH TO LOW

Claims (3)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. An area voice paging circuit for use in a key telephone system wherein a signalling switch network, having signalling ports, provides for connection of a.c. voice band signals and d.c. control signals to loudspeaker circuits each being selectable via d respective one of the signalling ports, and each residing in an associated key telephone station set, the area voice paging circuit comprising:
a page control interface circuit for generating a page signal in response to receipt of the d.c. control signals via the signalling switch network, and for generating a d.c. biased voltage signal which includes an a.c. voltage signal corresponding to the a.c. voice band signals, the a.c. voltage signal being superimposed on a predetermined d.c. voltage;
a plurality of page switches each having an output terminal connected in common with one of a plurality of the signalling ports, the page switches being responsive to an assertion of the page signal from the page control interface circuit for coupling the d.c. biased voltage signal from the page control interface circuit to the respective signalling ports for use in the associated loudspeaker circuits; and wherein the page control interface circuit comprises:
a plurality of page buffer circuits each having a signal input for receiving the d.c. control signal from one of the signalling ports, a page signal output, a unidirectional current path connected to the signal input, and a comparator with inputs, one input being connected to receive a reference voltage and another input being connected in series with a resistance to the signal input, the comparator being responsive to the d.c. control signal exceeding the reference voltage for generating the page signal at the page signal output;
an amplifier system including a resistive input connected to the unidirectional current path in each of the plurality of page buffer circuits, a power amplifier for amplifying the a.c. voice band signals appearing across the resistive input to generate the d.c. biased voltage signal at an output of the power amplifier, in response to an amplifier control signal, and a threshold detector for generating the amplifier control signal in response to more than a predetermined d.c. voltage appearing across the resistive input.

2. An area voice paging circuit as defined in claim 1 wherein each of the plurality of page switches comprises:
a control port for receiving the page signal;
a transmission gate having input, output, and control terminals, the input terminal being connected to the output of the power amplifier, the output terminal being connected in common with a respective one of the signalling ports, and the control terminal being connected in series with a resistance to the control port, the transmission gate being responsive to a control signal at the control terminal for passing signals from the input terminal to the output terminal; and a voltage comparator with an output and inputs, one input being connected to a reference voltage terminal for receiving a reference voltage, and another input being connected in series with a resistor to the output terminal and in series with a diode to the control terminal, the output being connected to a junction between the diode and the control terminal, whereby the transmission gate is maintained non responsive to an assertion of the page signal in a case where the d.c. control voltage from the associated signalling port is already present at the output of the page switch.

3. A method for performing an area page across a group of loudspeaker circuit equipped key telephone station sets in a key telephone system wherein individual ones of the loudspeaker circuits are activated in response to a predetermined d.c. signal on respective ones of signalling lines, the method comprising the steps of:
a) applying area paging signals including a voice band signal and a d.c. control signal to a group of transmission gates;
b) asserting a page control signal to cause each transmission gate to pass the area paging signal to the respective signalling lead; and at each transmission gate, c) comparing a signal state in the associated signalling lead with a predetermined reference voltage, to determine if the signalling lead is busy; and d) in response to a busy determination in step (c) occurring prior to an occurrence of step (b), maintaining the transmission gate at a higher impedance than that required to pass the area page signal, whereby a first occurring audible signalling message being transmitted to a selected key telephone station set in the key telephone system is maintained separate from a subsequent concurrent wide area paging signal.