JP3915162B2 - Local power supply system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a local power supply system in a subscriber line communication system, and in particular, a terminal device is accommodated in an exchange via a metallic two-wire subscriber line terminated by an in-office line terminator and a home line terminator, and The present invention relates to a local power feeding system in a subscriber line communication system having a function of supplying DC power to an in-house line terminator via a subscriber line.
[0002]
[Prior art]
FIG. 7 is a diagram illustrating a conventional subscriber line communication system, FIG. 8 is a diagram illustrating the intra-station line termination device in FIG. 7, and FIG. 9 is a diagram illustrating the residential channel termination device in FIG. FIG. 10 is a diagram illustrating a DC power supply situation in FIG.
[0003]
In FIG. 7, when the exchange (1) constituting the integrated service digital network (ISDN) accommodates the terminal device (2) via the metallic two-wire subscriber line (3), the exchange (1) The subscriber line (3) is terminated by an in-station line terminator (4) provided on the terminal side and an in-home line terminator (5) provided on the inside of the house where the terminal device (2) is installed. 2) is connected to the home line termination device (5) by a four-wire terminal line (6).
[0004]
The in-station line terminator (4) and the in-home line terminator (5) are an alternating current having a predetermined frequency band necessary for the terminal device (2) to execute various communications via the integrated service digital network (ISDN). Signals are transmitted and received via the subscriber line (3).
[0005]
Also, the in-station line termination device (4) is connected to the in-home line termination device (5) via the subscriber line (3), and the direct-current power required for the in-home line termination device (5) and the terminal device (2) to operate. Supply.
[0006]
Note that the in-station line terminator (4) and the in-home line terminator (5) shown in FIGS. 8 and 9 mainly show the DC power supply path, and the above-mentioned AC signal transmission path is simplified. ing.
[0007]
As shown in FIG. 8, the intra-station line termination device (4) includes an AC signal transmission / reception circuit (41), a power feeding circuit (42), a current detection circuit (43), a power feeding polarity control circuit (44), and an AC / DC separation circuit ( 45).
[0008]
Further, as shown in FIG. 9, the in-home line terminating device (5) includes an AC / DC separation circuit (51), a subscriber line interface circuit (52), a terminal interface circuit (53), a standby circuit (54), a call detection circuit. A circuit (55) and a DC conversion circuit (56) are provided.
[0009]
The AC signal transmission / reception circuit (41) in the intra-station line termination device (4) and the subscriber line interface circuit (52) and terminal interface circuit (53) in the in-house line termination device (5) Transmit and receive via the subscriber line (3).
[0010]
On the other hand, the power supply circuit (42) in the intra-station line termination device (4) is connected to the DC power (DC) from the switch main power supply (for example, DC-48 volts) possessed by the switch (1). ₁ DC power (DC) to be received and supplied to the home line termination device (5) ₂ ) And is sent to the subscriber line (3) via the current detection circuit (43), the feed polarity control circuit (44), and the AC / DC separation circuit (45).
[0011]
DC power sent to subscriber line (3) (DC ₂ ) Is supplied via the subscriber line (3) to the in-home line terminating device (5).
In the home line termination device (5), the AC / DC separation circuit (51) receives the AC signal and DC power (DC) transmitted from the local line termination device (4) via the subscriber line (3). ₂ The AC signal is transferred only to the subscriber line interface circuit (52), and the DC power (DC ₂ ) Is supplied to only one of the standby circuit (54) and the DC conversion circuit (56).
[0012]
A diode (D) added to the standby circuit (54). ₅₁ ) And (D ₅₂ ), And a diode (D) added to the DC conversion circuit (56) ₅₃ ) And (D ₅₄ ) Selects a supply destination according to the polarity of DC power (DC).
[0013]
In the intra-station line termination device (4), the polarity of the DC power (DC) output from the power feeding circuit (42) is controlled by the power feeding polarity control circuit (44).
When no signal is input from the outside, the feed polarity control circuit (44) outputs DC power (DC) output from the feed circuit (42). ₂ DC power (DC) sent to the subscriber line (3) via the AC / DC separation circuit (45) as a result. ₂ ), The A line side of the subscriber line (3) is set to positive polarity (+), and the B line side is set to negative polarity (-) (hereinafter referred to as normal polarity). An incoming call detection signal (S indicating that an incoming call from the processing unit to the terminal device (2) has been detected. _T ) Or output from the current detection circuit (43) through a process described later, the call detection signal (S) that detects the call from the terminal device (2). _O1 ) Is received, the DC power (DC) output from the feeding circuit (42) ₂ ) Is inverted and output, and as a result, the DC power (DC) sent to the subscriber line (3) through the AC / DC separation circuit (45). ₂ ) Is set so that the A line side of the subscriber line (3) is negative (−) and the B line side is positive (+) [hereinafter referred to as reverse polarity].
[0014]
Normal polarity DC power (DC ₂ ) Normal power (DC _2N ) And reverse polarity DC power (DC) ₂ ) Reverse power (DC _2R ).
Therefore, in a state where no call is set for the terminal device (2), the normal power (from the in-office line terminating device (4) to the in-home line terminating device (5) via the subscriber line (3) DC _2N ), And in the state where either a call or an incoming call has occurred to the terminal device (2), the in-house line terminator from the in-station line terminator (4) via the subscriber line (3) (5) includes reverse power (DC _2R ) Will be supplied.
[0015]
In the in-house line terminating device (5), the normal power (DC) is transmitted from the in-station line terminating device (4) via the subscriber line (3). _2N ) Is supplied, the diode (D ₅₁ ) And (D ₅₂ ) Is forward biased, diode (D ₅₃ ) And (D ₅₄ ) Is in a reverse bias state, so normal power (DC _2N ) Is supplied to the standby circuit (54).
[0016]
The call detection circuit (55) in the home line termination device (5) indicates the call state of the terminal device (2) accommodated in the home line termination device (5) as the TA line of the terminal line (6). When the terminal device (2) does not detect a call, the normal power (DC _2N ) Of the standby circuit (54) for the standby circuit (54) ₅₄ ) Is set to a predetermined high resistance value [for example, several thousand ohms], but when the terminal device (2) detects a call, the terminal resistor (R) of the standby circuit (54) is detected. ₅₄ ) Is set to a predetermined low resistance value (eg, 800 ohms).
[0017]
On the other hand, when the load resistance is 1600 ohms or less, the power feeding circuit (42) in the intra-station line termination device (4) outputs a substantially constant direct current (for example, about 39 milliamperes direct current) and the load resistance is 1600 ohms. Increases beyond the output current (I _DC2 ) Rapidly decreases (for example, 18 mA or less), and the output voltage converges to a predetermined value (for example, DC 60 volts).
[0018]
Therefore, normal power (DC _2N ) Is output and is terminated by the standby circuit (54) in the home line termination device (5), and the terminal device (2) accommodated in the home line termination device (5) is not calling. Then, the terminating resistance (R) of the standby circuit (54) ₅₄ ) Is set to several thousand ohms as described above, the load resistance value of the power feeding circuit (42) becomes 1600 ohms or more, and the output current (I) from the power feeding circuit (42) _DC2 ) Is 18 milliamperes or less (see FIG. 10 (a)).
[0019]
The in-home line terminating device (5) in this state is not supplied with DC power necessary for operation, and is set in a standby state.
In this state, when the terminal device (2) accommodated in the home line termination device (5) is in a calling state, the termination resistance (R) of the standby circuit (54) ₅₄ ) Is set to 800 ohms as described above, so the line resistance (R) of the subscriber line (3) _L ) Is 800 ohms or less, the load resistance value of the feed circuit (42) is 1600 ohms or less, and the output current (I) from the feed circuit (42) _DC2 ) Is approximately 39 milliamps (see FIG. 10 (b)).
[0020]
The current detection circuit (43) in the intra-station line termination device (4) is connected to the output current (I _DC2 ), And if the current value is equal to or less than a predetermined value [for example, 26 mA], it is determined that the in-home line terminating device (5) has not detected a call from the accommodating terminal device (2). When the current value exceeds a predetermined value (26 mA in the above case), it is determined that the in-home line termination device (5) has detected a call from the accommodation terminal device (2), and the power supply polarity control circuit (44) is determined. Call detection signal (S _O1 ).
[0021]
Call detection signal (S _O1 ) Receives the DC power (DC) output from the power supply circuit (42). ₂ ) Is reversed from normal polarity to reverse polarity, and reverse power (DC) is supplied to the subscriber line (3) via the AC / DC separation circuit (45). _2R ).
[0022]
In the in-house line termination device (5), the reverse power (DC) from the in-station line termination device (4) via the subscriber line (3) _2R ) Is supplied, the diode (D ₅₃ ) And (D ₅₄ ) Is forward biased, diode (D ₅₁ ) And (D ₅₂ ) Will be in a reverse bias state, DC power (DC ₂ ) Is supplied to the DC conversion circuit (56).
[0023]
Terminal resistance (R) of DC conversion circuit (56) ₅₆ ) Is also set to approximately 800 ohms, so that the output current (I) from the power supply circuit (42) of the intra-station line termination device (4) _DC2 ) Is maintained at 39 milliamperes, and the current detection circuit (43) generates a call detection signal (S _O1 ) Is continuously transmitted to the feed polarity control circuit (44), and the reverse power (DC) is continuously transferred from the intra-station line terminating device (4) to the subscriber line (3). _2R ) Is supplied.
[0024]
The DC conversion circuit (56) is connected to the reverse power (DC) supplied from the intra-station line termination device (4) via the subscriber line (3). _2R ) To +5 volt DC power (DC) used in each circuit in the home line termination device (5) _Three ) And DC power of +40 volts used in the terminal device (2) (DC _Four ) And is supplied to each circuit in the in-home line terminating device (5) and the terminal device (2) [see FIG. 10 (c)].
[0025]
As described above, the terminal device (2) and the home line termination device (5) shift from the standby state to the operation state, and the subscriber line interface circuit (52) and the terminal interface circuit (53) in the home line termination device (5). A predetermined AC signal is transmitted / received to / from the AC signal transmitting / receiving circuit (41) in the intra-station line terminating device (4) via the subscriber line (3), and the exchange (1) is connected to the terminal device (2 ) Is started.
[0026]
On the other hand, when an incoming call to the terminal device (2) occurs in the exchange (1), as described above, the call processing unit (not shown) in the exchange (1) enters the intra-station line termination device (4). Of the incoming call detection signal (S _T ) Is transmitted, the feed polarity control circuit (44) is connected to the DC power (DC) output from the feed circuit (42). ₂ ) Is reversed from normal polarity to reverse polarity, and reverse power (DC) is supplied to the subscriber line (3) via the AC / DC separation circuit (45). _2R ).
[0027]
In the in-house line termination device (5), the reverse power (DC) from the in-station line termination device (4) via the subscriber line (3) _2R ) Begins to be supplied, reverse power (DC _2R ) Receives the DC power of +5 volts DC (DC) as described above. _Three ) And DC power of +40 volts DC (DC _Four ) And is supplied to each circuit in the in-home line terminating device (5) and the terminal device (2) [see FIG. 10 (c)].
[0028]
As a result, the terminal device (2) and the home line termination device (5) are in an operating state, and the subscriber line interface circuit (52) and terminal interface circuit (53) in the home line termination device (5) A predetermined AC signal is transmitted / received to / from the AC signal transmitting / receiving circuit (41) in the device (4) via the subscriber line (3), and the exchange (1) receives an incoming call to the terminal device (2). Execute the process.
[0029]
[Problems to be solved by the invention]
As is clear from the above description, in the conventional subscriber line communication system, the in-station line terminator (4) and the in-home line terminator (5) have a line resistance (R _L ) Is configured for a subscriber line (3) of 800 ohms or less.
[0030]
On the other hand, the attenuation of the subscriber line (3) with respect to the AC signal transmitted / received between the in-station line terminator (4) and the in-home line terminator (5) is allowed to be about 50 decibels. In order to use a subscriber line (3) having a quantity, the in-station line terminator (4) and the in-house line terminator (5) have a line resistance (R _L ) Needs to be available.
[0031]
Therefore, the line resistance (R) of the subscriber line (3) _L In order to accommodate the terminal device (2) exceeding 800 ohms in the exchange (1), there is a problem that the existing in-station line terminator (4) and in-home line terminator (5) cannot be used.
[0032]
An object of the present invention is to make it possible to accommodate a terminal device in which the line resistance of a subscriber line exceeds an allowable value by using an existing in-station line terminating device and in-house line terminating device in an exchange.
[0033]
[Means for Solving the Problems]
FIG. 1 shows the principle of the present invention.
In FIG. 1, 1 is an exchange, 2 is a terminal device, 3 is a metallic two-wire subscriber line, 4 is an in-office line terminator, and 5 is a home line terminator.
[0034]
Reference numeral 600 denotes local power feeding means inserted at a connection point between the subscriber line (3) and the home line termination device (5) according to the present invention.
Reference numeral 601 denotes AC / DC separation means provided in the local power supply means (600) according to the present invention.
[0035]
Reference numeral 602 denotes a power supply means provided in the local power supply means (600) according to the present invention.
Reference numeral 603 denotes DC termination means provided in the local power supply means (600) according to the present invention.
[0036]
Reference numeral 604 denotes power supply state control means provided in the local power supply means (600) according to the present invention (Claim 2).
Reference numeral 605 denotes terminal call detection means provided in the local power supply means (600) according to the present invention (Claim 3).
[0037]
Reference numeral 606 denotes a call state transfer means (606) provided in the local power supply means (600) according to the present invention (Claim 3).
One end of the metallic two-wire subscriber line (3) is connected to the exchange (1) via the intra-office line terminator (4), and the residential line terminator (5) is connected to the other end of the subscriber line (3). The terminal device (2) is connected via the terminal line to form a subscriber line communication system.
[0038]
The in-station line terminating device (4) has a function of supplying predetermined DC power to the in-house line terminating device (5) via the subscriber line (3), and the in-house line terminating device (5) A function of receiving DC power supplied via the subscriber line (3) and operating, and the in-station line terminator (4) and the in-home line terminator (5) include a subscriber line (3 ) To exchange AC signals in a predetermined frequency band.
[0039]
The power supply means (602) supplies direct-current power necessary for the operation of the home line termination device (5).
The DC termination means (603) converts the DC power supplied from the intra-station line termination device (4) via the subscriber line (3) to the termination resistance for the subscriber line (3) of the residential line termination device (5). Terminate with lower resistance.
[0040]
The AC / DC separation means (601) is configured such that an AC signal transmitted and received between the in-station line termination device (4) and the in-house line termination device (5) via the subscriber line (3) is supplied to the power supply means (602). And DC power supplied from the in-station line terminator (4) via the subscriber line (3) to the DC line terminating means (603) is prevented from joining the in-home line terminator (5). The transmission line (3) is prevented from being transmitted to the connection terminal and transmitted to the DC termination means (603), and the DC power supplied from the power supply means (602) to the in-home line termination device (5) is the subscriber line. Prevent transmission to (3). [The above, the present invention (Claim 1)]
The DC termination means (603) recognizes that the polarity of the DC power supplied from the in-station line termination device (4) via the subscriber line (3) is reversed by the built-in power supply polarity identification function. In addition, it is considered to change the termination resistance value between the non-inversion state and the inversion state [the present invention (Claim 2)].
Further, the local power supply means (600) has a power supply polarity identification function for identifying the polarity of the DC power supplied from the intra-station line termination device (4) via the subscriber line (3) in the DC termination means (603). And the polarity of the DC power supplied from the power supply means (602) to the subscriber line (3) connection terminal of the in-home line termination device (5) based on the voltage polarity of the DC power identified by the power supply polarity identification function. It is considered that a power supply state control means (604) for controlling the power supply is provided. [Invention (Claim 3)]
Further, the local power supply means (600) monitors the direct current supplied from the power supply means (602) to the in-home line terminating device (5) and makes a call to the terminal device (2) accommodated in the in-home line terminating apparatus (5). When the terminal call detection means (605) detects the call of the accommodated terminal device (2), the terminal call detection means (605) for detecting the in-station line termination device (4) by the DC termination means (603) is detected. ) And a calling state transfer means (606) for changing the terminating resistance value of the DC power supplied via the subscriber line (3) is considered [this invention (Claim 4)]
Therefore, the in-house line termination device is supplied with the required DC power from the local power supply means inserted at the connection point with the subscriber line, so that it is always necessary and sufficient DC power regardless of the line resistance of the subscriber line. DC power supplied from the in-house line terminator via the subscriber line to the in-home line terminator is terminated by the local power supply means having a lower resistance than the in-home line terminator. Without changing the DC power that can be sent from the intra-station line terminator to the subscriber line, the allowable value for the line resistance of the subscriber line can be increased by the decrease of the termination resistance, and the existing intra-station line terminator and home A terminal device in which the line resistance of the subscriber line exceeds the allowable value using the line terminating device can be accommodated in the exchange, and the accommodation range of the terminal device can be expanded.
[0041]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
2 is a diagram showing a subscriber line communication system according to an embodiment of the present invention, FIG. 3 is a diagram illustrating a local power feeding circuit in FIG. 2, and FIGS. 4 to 6 are diagrams illustrating a DC power feeding situation in FIG. It is a figure to do. Note that the same reference numerals denote the same objects throughout the drawings.
[0042]
In FIG. 2, as the local power supply means (600) in FIG. 1, a local power supply circuit (7) is inserted at a connection point between the subscriber line (3) and the home line termination device (5).
[0043]
Note that the in-station line terminator (4) and the in-home line terminator (5) in FIG. 2 are the same as those shown in FIG. 8 and FIG. 9, respectively.
The local power supply circuit (7) has a configuration as shown in FIG. 3, and an AC / DC separation circuit (71) is provided as the AC / DC separation means (601) in FIG. 1, and the power supply means (602) in FIG. 1 is provided, a DC termination circuit (73) is provided as the DC termination means (603) in FIG. 1, and a feed polarity relay circuit (74) is provided as the power supply state control means (604) in FIG. 1, a current detection circuit (75) is provided as the terminal call detection means (605) in FIG. 1, and a call notification circuit (76) is provided as the call state transfer means (606) in FIG. ing.
[0044]
The power feeding circuit (72) includes a DC power (DC) supplied from the in-house line terminating device (5) via the subscriber line (3) by the in-house line terminating device (4). ₂ ) Instead of the DC power (DC) required for operation of the home line termination device (5) and the terminal device (2). _Five ) To the connection terminal of the subscriber line (3) in the in-house line terminating device (5), and has substantially the same performance as the power feeding circuit (42) in the in-house line terminating device (4).
[0045]
The DC termination circuit (73) includes current detection circuits (731) and (732), a diode (D ₇₁ ) And (D ₇₂ ), And resistance (R ₇₁ ) To (R ₇₃ ) And a diode (D ₇₁ ) Is a diode (D in the home line termination device (5)). ₅₁ ) And (D ₅₂ ), The diode (D ₇₂ ) Is a diode (D in the home line termination device (5)). ₅₃ ) And (D ₅₄ ), The resistance (R ₇₁ ) And (R ₇₂ ) Is the normal power (DC) supplied from the intra-station line terminator (4) via the subscriber line (3). _2N ) Is connected to the standby circuit (54) [termination resistor (R ₅₄ )]) Instead of terminating, and resistance (R ₇₃ ) Is the reverse power (DC) supplied from the intra-station line terminator (4) via the subscriber line (3). _2R ) In place of the DC converter circuit (56) in the home line termination device (5).
[0046]
Resistance (R ₇₁ ) And (R ₇₃ ) Is a terminal resistance (R) between the standby circuit (54) when the call detection signal is transmitted from the call detection circuit (55) and the DC conversion circuit (56). ₅₄ ) And (R ₅₆ ) [800 ohm in the above description] is set to a sufficiently low resistance value (for example, about 100 ohm), and the resistance (R ₇₂ ) Is the terminating resistance (R) of the standby circuit (54) when the call detection signal is not transmitted from the call detection circuit (55). ₅₄ ) [Several thousand ohms in the above].
[0047]
Further, the current detection circuits (731) and (732) are respectively connected to the diode (D ₇₁ ) And (D ₇₂ ) And the power feeding polarity identification function built in the DC termination means (603) in FIG.
[0048]
The AC / DC separation circuit (71) includes a capacitor (C ₇₁ ) And (C ₇₂ ) And fortress line ring (L ₇₁ ) To (L ₇₄ ) And a capacitor (C ₇₁ ) And (C ₇₂ ) Is a DC power (DC) supplied from the power supply circuit (42) in the intra-station line termination device (4) via the subscriber line (3). ₂ ) Is transmitted to the home line termination device (5), and the DC power (DC) supplied from the feeder circuit (72) to the subscriber line (3) connection terminal of the home line termination device (5). _Five ) Is transmitted to the subscriber line (3), the AC signal transmission / reception circuit (41) in the in-station line terminator (4), and the subscriber line interface circuit in the in-home line terminator (5) (52), the AC signal transmitted to and received from ₇₁ ) And (L ₇₂ ) Prevents the aforementioned AC signal from being transmitted to the DC termination circuit (73), and DC power (DC) supplied from the power supply circuit (42) via the subscriber line (3). ₂ ) Is transmitted to the DC termination circuit (73), and the closed flow ring (L ₇₃ ) And (L ₇₄ ) Prevents the aforementioned AC signal from being transmitted to the power feeding circuit (72), and direct current power (DC) output from the power feeding circuit (72). _Five ) Is supplied to the subscriber line (3) connection terminal of the home line termination device (5).
[0049]
2 to 6, in the state where neither a call nor an incoming call is generated in the terminal device (2) via the subscriber line (3), the subscriber line (4) is connected to the subscriber line (4). 3) includes the normal polarity DC power (DC) as described above. ₂ ) Is supplied.
[0050]
In the local power supply circuit (7), normal power (DC _2N ) Is supplied via the subscriber line (3), the diode (D in the DC termination circuit (73) ₇₁ ) Is forward biased, diode (D ₇₂ ) Is in reverse bias state, normal power (DC _2N ) Is a resistance (R) connected in series in the DC termination circuit (73). ₇₁ ) And (R ₇₂ ).
[0051]
In such a state, the direct current (I _NI2 ) Is a low current value (18 mA or less in the above case), and the current detection circuit (43) in the intra-station line terminating device (4) _O1 ) Is not transmitted to the feed polarity control circuit (44), and the feed polarity control circuit (44) is connected to the DC power (DC) output from the feed circuit (42). ₂ ) Is kept in normal polarity.
[0052]
In addition, the current detection circuit (731) in the DC termination circuit (73) has normal power (DC) supplied from the intra-station line termination device (4). _2N ), The series resistance (R ₇₁ ) And (R ₇₂ ) DC current (I _NI2 ) To the control unit (741) in the feed polarity relay circuit (74) and the control unit (761) in the call notification circuit (76), respectively. _N1 ) And (S _N2 ), But the current detection circuit (732) is connected to the normal power (DC) supplied from the intra-station line termination device (4). _2N ), Resistance (R ₇₃ ) To DC current (I _R2 ) Does not flow, the current detection signal (S) is sent to the control unit (744) in the feed polarity relay circuit (74). _R1 ) Is not transmitted.
[0053]
As a result, in the feed polarity relay circuit (74), the current detection signal (S _N1 ) Is transmitted, the corresponding connection units (742) and (743) are set to the conductive state, but the current detection signal (S) is set from the current detection circuit (732). _R1 ) That is not transmitted) sets the corresponding connecting portions (745) and (746) to the cutoff state.
[0054]
As a result, the feed polarity relay circuit (74) is connected to the DC power (DC) output from the feed circuit (72). _Five ) Is set to normal polarity, the subscriber line (3) connection terminal of the home line termination device (5), the A line connection terminal is positive (+), and the B line connection terminal is negative (−) normal. Electric power (DC _5N ).
[0055]
In the home line termination device (5), normal power (DC) is applied from the local power supply circuit (7) to the connection terminal of the subscriber line (3) of the home line termination device (5). _5N In the state where the call detection circuit (55) does not detect the call from the accommodating terminal device (2), the normal power supplied from the local power supply circuit (7) is the same as described above. Electric power (DC _5N ), Termination resistance (R ₅₄ ) Is terminated by a standby circuit (54) set to a high resistance value (several thousand ohms in the above).
[0056]
In such a state, the output current (I) from the feeding circuit (72) in the local feeding circuit (7). _DC5 ) Is maintained at a predetermined value or less (that is, 18 milliamperes or less) in the same manner as the power feeding circuit (42) in the intra-station line terminating device (4). Is similar to the current detection circuit (43) in the intra-station line termination device (4), and the call detection signal (S _O2 ) Is not transmitted to the control unit (761) in the call notification circuit (76).
[0057]
The control unit (761) receives a call detection signal (S) from the current detection circuit (75). _O2 ) Is not transmitted, the corresponding connecting portion (762) is set to the cutoff state.
When the connection part (762) is set in the cut-off state, the resistance (R in the DC termination circuit (73) is set. ₇₂ ) Is not short-circuited, so normal power (DC) supplied from the intra-station line termination device (4) via the subscriber line (3) _2N ) Is the series resistance (R) in the DC termination circuit (73). ₇₁ ) And (R ₇₂ ) Is maintained [see FIG. 4].
[0058]
In this state, when the terminal device (2) accommodated in the in-home line terminating device (5) enters a calling state, the terminating resistance value (R) of the standby circuit (54) ₅₄ ) Is set to a low resistance value (800 ohms in the above), the load resistance value of the power feeding circuit (72) in the local power feeding circuit (7) is approximately 800 ohms, and the DC output from the power feeding circuit (72). Current (I _NO5 ) Is approximately 39 milliamperes, and direct current (I _NO5 ) Monitoring the direct current (I _NO5 ) Exceeds a predetermined value [26 mA in the above example], the call detection signal (S) is sent to the control unit (761) in the call notification circuit (76). _O2 ).
[0059]
The control unit (761) is configured to output a current detection signal (S) transmitted from the current detection circuit (731). _N2 ), The call detection signal (S) transmitted from the current detection circuit (75). _O2 ) Is received, the resistance (R) in the DC termination circuit (73) is set in order to set the connection (762) to the conductive state. ₇₂ ) Will be short-circuited.
[0060]
In such a state, normal power (DC) supplied from the intra-station line terminator (4) via the subscriber line (3) _2N ) Is a resistance (R) in the DC termination circuit (73). ₇₁ ) Is terminated only by the internal resistance value of the current detection circuit (731) and the diode (D ₇₁ If the forward resistance value of) is ignored, it is about 100 ohms.
[0061]
In this state, the line resistance (R) of the subscriber line (3) _L ) Is 1500 ohms or less, the load resistance value of the power supply circuit (42) in the intra-station line termination device (4) is 1600 ohms or less, and the output current (I) from the power supply circuit (42) is _DC2 ) Is approximately 39 milliamperes, and the current detection circuit (43) in the in-station line termination device (4) has detected that the in-home line termination device (5) has detected a call from the accommodating terminal device (2), as described above. The call detection signal (S _O1 ) (See FIG. 5).
[0062]
Call detection signal (S _O1 ) Receives the DC power (DC) output from the power supply circuit (42) in the same manner as described above. ₂ ) Is reversed from normal polarity to reverse polarity.
[0063]
In the local power supply circuit (7), the reverse power (DC _2R ) Is supplied via the subscriber line (3), the diode (D in the DC termination circuit (73) ₇₂ ) Is forward biased, diode (D ₇₁ ) Is in reverse bias state and reverse power (DC _2R ) Is a resistance (R) in the DC termination circuit (73). ₇₃ ).
[0064]
Resistance (R ₇₃ ) Is the resistance value (R ₇₁ ) Is set to 100 ohms equal to the reverse power (DC) supplied from the intra-station line terminator (4) _2R ) DC current (I _R2 ) Is maintained at a predetermined current value (approximately 39 milliamperes in the above case) as described above, and the current detection circuit (43) in the intra-station line terminating device (4) receives the call detection signal (S _O1 ) Is continuously transmitted to the feed polarity control circuit (44), and the feed polarity control circuit (44) is connected to the DC power (DC) output from the feed circuit (42). ₂ ) Is held in reverse polarity.
[0065]
In the DC termination circuit (73) in the local power feeding circuit (7), the current detection circuit (732) is connected to the DC power (DC) supplied from the intra-station line termination device (4). ₂ ), Resistance (R ₇₃ ) DC current (I _R2 ) And the current detection signal (S) is sent to the control unit (744) in the feed polarity relay circuit (74). _R1 ), But the current detection circuit (731) is connected to the reverse power (DC _2R ) Depending on the resistance (R ₇₁ ) To DC current (I _NO2 ) Does not flow, the current detection signal (S) is sent to the control unit (741) in the feed polarity relay circuit (74) and the control unit (761) in the call notification circuit (76). _N1 ) And (S _N2 ) Is not transmitted.
[0066]
As a result, in the feed polarity relay circuit (74), the current detection signal (S _R1 ) Is transmitted, the corresponding connection units (745) and (746) are set to the conductive state, but the current detection signal (S) is set from the current detection circuit (731). _N1 The control unit (741) that has not been transmitted sets the corresponding connection units (742) and (743) to the cut-off state.
[0067]
As a result, the feed polarity relay circuit (74) is connected to the DC power (DC) output from the feed circuit (72). _Five ) Is changed from normal polarity to reverse polarity, negative polarity (-) is applied to the A line connection terminal of the subscriber line (3) connection terminal of the home line termination device (5), and positive polarity is applied to the B line connection terminal ( +) Reverse power (DC _5R ).
[0068]
In the home line termination device (5), the reverse power (DC) is supplied from the local power supply circuit (7) to the connection terminal of the subscriber line (3). _5R ) Is supplied to the DC conversion circuit (56).
[0069]
Terminal resistance (R) of DC conversion circuit (56) ₅₆ ) Is also set to approximately 800 ohms, so that the direct current (I) output from the feeding circuit (72) of the local feeding circuit (7) _R5 ) Is maintained at 39 milliamps.
[0070]
The DC conversion circuit (56) is provided with a reverse power (DC) supplied from the local power supply circuit (7) to the connection terminal of the subscriber line (3). _5R ) DC power (DC) of DC +5 volts used in each circuit in the home line termination device (5) and DC +40 volts used in the terminal device (2) (DC) _Three ) And (DC _Four ) And is supplied to each circuit in the in-home line terminating device (5) and the terminal device (2) [see FIG. 6].
[0071]
As a result, the terminal device (2) and the home line termination device (5) are in an operating state, and the subscriber line interface circuit (52) and terminal interface circuit (53) in the home line termination device (5) A predetermined AC signal is transmitted to and received from the AC signal transmission / reception circuit (41) in the device (4) via the local power supply circuit (7) and the subscriber line (3), and the exchange (1) is a terminal device. The calling process (2) is started.
[0072]
On the other hand, when an incoming call to the terminal device (2) occurs in the exchange (1), as described above, the call processing unit (not shown) in the exchange (1) enters the intra-station line termination device (4). Of the incoming call detection signal (S _T ) Is transmitted, the feed polarity control circuit (44) is connected to the DC power (DC) output from the feed circuit (42). ₂ ) Is reversed from normal polarity to reverse polarity, and reverse power (DC) is supplied to the subscriber line (3) via the AC / DC separation circuit (45). _2R ).
[0073]
In the local power supply circuit (7), the reverse power (DC) is transmitted from the intra-station line termination device (4) via the subscriber line (3). _2R ), As described above, the diode (D in the DC termination circuit (73) ₇₂ ) Through the resistance (R ₇₃ ) And the current detection circuit (732) is sent to the control unit (744) in the feed polarity relay circuit (74). _R1 ) And the current detection circuit (731) sends a current detection signal (S) to the control unit (741). _N1 ) Is not transmitted, the control unit (744) sets the corresponding connection units (745) and (746) to the conductive state, and the control unit (741) blocks the corresponding connection units (742) and (743). As a result, the feed polarity relay circuit (74) is connected to the DC power (DC) output from the feed circuit (72). _Five ) Change the polarity from normal polarity to reverse polarity.
[0074]
In the home line termination device (5), the reverse power (DC) is supplied from the local power supply circuit (7) to the connection terminal of the subscriber line (3). _5R ) Is supplied, the DC conversion circuit (56) receives power as described above, and the termination resistance (R) of the DC conversion circuit (56) is received. ₅₆ ) Is also set to approximately 800 ohms, so that the output current (I) from the feeding circuit (72) of the local feeding circuit (7) _DC5 ) Is maintained at 39 milliamps.
[0075]
The DC conversion circuit (56) is provided with a reverse power (DC) supplied from the local power supply circuit (7) to the connection terminal of the subscriber line (3). _5R ) DC power (DC) of DC +5 volts used in each circuit in the home line termination device (5) and DC +40 volts used in the terminal device (2) (DC) _Three ) And (DC _Four ) And is supplied to each circuit in the in-home line terminating device (5) and the terminal device (2) [see FIG. 6].
[0076]
As a result, the terminal device (2) and the home line termination device (5) are in an operating state, and the subscriber line interface circuit (52) and terminal interface circuit (53) in the home line termination device (5) A predetermined AC signal is transmitted to and received from the AC signal transmission / reception circuit (41) in the device (4) via the local power supply circuit (7) and the subscriber line (3), and the exchange (1) is a terminal device. The incoming call process to (2) is executed.
[0077]
As is apparent from the above description, according to the embodiment of the present invention, the local power feeding circuit (7) is inserted at the connection point between the subscriber line (3) and the in-house line terminator (5), and the in-station line terminator is obtained. DC power (DC) supplied from (4) via subscriber line (3) ₂ ) Is terminated by the DC termination circuit (73) in the local power supply circuit (7) by interrupting transmission to the home line termination device (5), and the local power supply circuit (7) is connected to the home line termination device (5). DC power (DC) from the feeding circuit (72) _Five ) Is supplied, and even if the line resistance value of the subscriber line (3) is 800 ohms or more, the in-home line terminating device (5) has the DC power (7) necessary for operation from the local power supply circuit (7). DC _Five ) [In the above description, a direct current of 39 milliamperes with respect to an internal resistance value of 800 ohms] is received.
[0078]
The current detection circuit (75) and the call notification circuit (76) reliably detect the call state of the terminal device (2) detected by the home line termination device (5) to terminate the DC termination circuit (73). Resistance (R ₇₁ + R ₇₂ ), Normal power (DC) from the intra-station line termination device (4) via the subscriber line (3) _2N ) Is supplied and the terminal device (2) does not detect the call, the series resistance (R ₇₁ + R ₇₂ ) [That is, thousands of ohms] and when the terminal device (2) detects a call, the resistance (R ₇₁ ) Only [ie, about 100 ohms], and reverse power (DC) from the intra-station line termination device (4) via the subscriber line (3) _2R ) Is supplied, the resistance (R ₇₃ ) [Ie, about 100 ohms], the intra-station line termination device (4) reliably detects the call of the terminal device (2) until the line resistance of the subscriber line (3) reaches 1500 ohms. After the call detection of the terminal device (2) and the occurrence of an incoming call, the DC current (I _NO2 ) Or (I _R2 ) Can be supplied via the subscriber line (3).
[0079]
2 to 6 are merely one embodiment of the present invention. For example, the configuration of the local power feeding circuit (7) is not limited to the illustrated one, and many other modifications are considered. However, the effect of the present invention does not change in any case.
[0080]
For example, when the subscriber line (3) is operated as a dedicated line, the DC power supply to the in-home line terminating device (5) is executed only during a call to the terminal device (2). There is no limitation, and continuous execution is also considered.
[0081]
In such a case, the intra-station line termination device (4) always supplies direct-current power (DC) of reverse polarity, and the local power feeding circuit (7) is a resistor (R) in the direct-current termination circuit (73). ₇₃ ) Terminates the direct current power (DC), and the power feeding circuit (72) supplies the reverse polarity direct current power (DC) to the home line termination device (5). Normal polarity DC power (DC) termination circuit [diode (D ₇₁ ), Current detection circuit (731), resistance (R ₇₁ ) And (R ₇₂ )], The feed polarity relay circuit (74), the current detection circuit (75), and the call notification circuit (76) can be omitted [Embodiment of the present invention (Claim 1)]. However, the effect of the present invention is not changed.
[0082]
Further, even when the subscriber line (3) is operated as a dedicated incoming line, the current detection circuit (75) and the call notification circuit (76) can be omitted. The effect does not change.
[0083]
The resistance (R) in the feed polarity detection circuit (73) ₇₁ ), (R ₇₂ ) And (R ₇₃ ) Resistance and line resistance (R _L ) Is not limited to that shown in the figure, and many other variations are considered, but in any case, the effect of the present invention is not changed.
[0084]
【The invention's effect】
As described above, according to the present invention, in the subscriber line communication system, the in-house line terminator is supplied with the required DC power from the local power supply means inserted at the connection point with the subscriber line. Regardless of the line resistance, it is always possible to receive supply of necessary and sufficient DC power, and without changing the DC power that can be sent to the subscriber line from the in-station line termination device, The allowable value can be increased, and the terminal equipment whose subscriber line resistance exceeds the allowable value can be accommodated in the exchange using the existing in-station line terminating equipment and in-house line terminating equipment. Can be expanded.
[Brief description of the drawings]
FIG. 1 is a principle diagram of the present invention.
FIG. 2 shows a subscriber line communication system according to an embodiment of the present invention.
3 is a local power feeding circuit in FIG. 2;
4 is a DC power supply status (standby state) in FIG.
FIG. 5 shows a DC power supply state (calling state) in FIG.
6 is a DC power supply situation (incoming call state) in FIG.
FIG. 7 shows a conventional subscriber line communication system.
8 is an intra-station line terminator in FIG.
9 is a home line termination device in FIG. 7;
FIG. 10 shows the DC power supply status in FIG.
[Explanation of symbols]
1 exchange
2 Terminal equipment
3 subscriber lines
4 Station termination equipment
5 Residential line termination equipment
6 Terminal line
7 Local power supply circuit
41 AC signal transmission / reception circuit
42, 72 Feed circuit
43, 75, 731, 732 Current detection circuit
44 Feeding polarity control circuit
45, 51, 71 AC / DC separation circuit
52 Subscriber line interface circuit
53 Terminal interface circuit
54 Standby circuit
55 Call detection circuit
56 DC converter circuit
73 DC termination circuit
74 Feeding polarity relay circuit
76 Call notification circuit
600 Local power supply means
601 AC / DC separation means
602 Power supply means
603 DC termination means
604 Power supply state control means
605 Terminal call detection means
606 Calling state transfer means
741, 744, 761 Control unit
742, 743, 745, 746, 762 Connection part

Claims (4)

One end of a metallic two-wire subscriber line is connected to an exchange via an in-station line terminator, and a terminal device is connected to the other end of the subscriber line via an in-house line terminator. A function of supplying predetermined DC power to the in-house line termination device via the subscriber line, and the in-home line termination device operates by receiving DC power supplied via the subscriber line; In the subscriber line communication system for transmitting and receiving an AC signal of a predetermined frequency band via the subscriber line, the in-station line termination device and the in-house line termination device,
At the connection point between the subscriber line and the home line termination device,
Power supply means for supplying direct current power necessary for the operation of the in-home line termination device;
DC termination means for terminating the DC power supplied from the intra-station line termination device via the subscriber line with a resistance lower than the termination resistance for the subscriber line of the in-house line termination device;
The AC signal transmitted and received via the subscriber line between the in-station line terminator and the in-house line terminator is prevented from being transmitted to the power supply means and the DC termination means, and the in-station line The DC power supplied from the terminating device via the subscriber line is prevented from being transmitted to the subscriber line connection terminal of the in-house line terminating device and transmitted to the DC terminating means, and the power supply means A local power supply system comprising: a local power supply means including AC / DC separation means for preventing the DC power supplied to the subscriber line terminating device from being transmitted to the subscriber line. The DC termination means is in a non-inverted state when the built-in power supply polarity identification function identifies that the polarity of the DC power supplied from the intra-station line termination device via the subscriber line is inverted. The local power feeding system according to claim 1, wherein the termination resistance value is changed depending on whether the terminal is inverted. The local power supply means has a power supply polarity identification function in the DC termination means for identifying the polarity of the DC power supplied from the intra-station line termination device via the subscriber line,
Power supply state control means for controlling the polarity of the DC power supplied from the power supply means to the subscriber line connection terminal of the residential line termination device based on the voltage polarity of the DC power identified by the power supply polarity identification function. The local power feeding system according to claim 1, wherein the local power feeding system is attached. The local power supply means is configured to monitor a direct current supplied by the power supply means to the in-home line terminating device and detect a call from the terminal device accommodated in the in-home line terminating apparatus;
When the terminal call detection means detects a call of the accommodating terminal device, the termination resistance value of the DC power supplied from the intra-station line termination device by the DC termination means via the subscriber line is changed. 2. The local power feeding system according to claim 1, further comprising a calling state transfer means to be attached.

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