JPH05219197A - Ringing trip circuit - Google Patents

Abstract

PURPOSE:To improve compatibility with digital LSI by insulating and separating a first order side where the high breakdown strength of a ringing trip circuit is needed and the second order side where low breakdown strength is sufficient to be insulated by means of an optical coupling element. CONSTITUTION:A calling signal source VS1 obtained by superimposing an AC calling signal VAC on a DC voltage TDC transmits a signal to the bell circuit of a terminal 5 by way of a lease register 2, light emitting diodes 10a, 10b and a subscriber line 4 by closing the contacts r1, r2 of a relay 3. When the terminal 5 is on-hooked, a switch S is opened, only the AC signal is made to flow through the RB, LB, a current is made to flow in the light emitting diodes 10a, 10b by a half cycle, a light receiving TR 11 is turned on/off by 50% duty and the input of a login circuit 12 changes high and low by 50% duty. When the terminal 5 is off-hooked, the switch S is closed so that a DC loop is made, the current of the diodes 10a, 10b become unbalanced and the duty of TR 11 does not become 50%.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION This invention relates to ring trip circuits for analog subscriber circuits.

[0002]

2. Description of the Related Art In a conventional ring trip circuit, a lease resistor 2 for current detection and current control is connected in series to a ringing signal source 1 in which an AC ringing signal is superimposed on a DC voltage as shown in FIG. , Lease resistance 2 is relay 3 for calling signal transmission
Is connected to the subscriber line 4 and the terminal 5 through one contact of
The other contact of the call signal transmission relay 3 is the current limiting resistor 6
It is connected to the.

Further, a current-voltage conversion circuit 7 with a level shift for detecting the voltage across the lease resistor 2 is provided, and both ends of the lease resistor 2 are divided by a high resistance and the level is shifted.
After passing through the low-pass filter 8, the reference voltage is compared with the comparator 9.

In the conventional ring trip configuration, the terminal 5
When is ON-HOOK, only an AC signal flows through the bell circuit capacitor, and no DC current flows through the lease resistor 2. Therefore, the signal input to the low-pass filter 8 by the level-shifted current-voltage conversion circuit 7 is only an AC signal, and in the stage subsequent to the low-pass filter 8, there is no DC component, the reference voltage is not reached, and there is no loop. To detect.

However, when the terminal 5 is turned OFF-HOOK, the DC loop is closed in the terminal 5 so that the AC signal on which the direct current is superposed flows in the lease resistor 2 and the current-voltage conversion circuit with level shift 7 operates. , Low-pass filter 8
An AC signal having a DC component is input to.

The low-pass filter 8 removes the AC component of the input signal, outputs the DC component, and the comparator 9 determines that the DC component is present, and detects that a loop has been formed.

[0007]

In this conventional ring trip circuit, the resistance used for current detection and level shift is always connected to the ringing signal source, so even if a high resistance is made, Looking at the entire system, the number is 1 / line of the system, and there is a problem that the load of the calling signal source is heavy and power is wasted (probably 100K.
Even with a resistance of Ω, if 10,000 lines, 1/1
10 Ω).

Further, the time constant of the low-pass filter becomes very large because the frequency of the AC signal to be handled is as low as 16 to 20 Hz, and the number of external elements becomes large and a large number of them are required.

An object of the present invention is to provide a ring trip circuit having improved affinity with a digital LSI.

[0010]

In order to achieve the above object, in a ring trip circuit according to the present invention, a ringing signal source in which an AC ringing signal is superimposed on a DC voltage and a ringing signal source are connected in series. A pair of connected leasing resistors, a pair of light emitting diodes connected in parallel so that the anode and the cathode are reversed, and connected in series to the leasing resistors, a transistor driven by light reception of the light emitting diodes, and the transistor. A logic circuit whose input is the output of
It has a counter for counting the output width of the logic circuit by a clock and a comparator for judging the output by the value of the counter.

Further, it has a counter for counting the high level width or the low level width of the output of the logic circuit.

Further, the counter has a counter for counting both the high level output width and the low level output width of the output of the logic circuit, and the logical sum of the counter value outputs of both the high level output width and the low level output width. Is taken.

[0013]

By configuring the ring trip detection circuit with a digital logic circuit, compatibility with a digital LSI is improved.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. 1A is a block diagram showing an embodiment of the present invention, and FIG. 1B is an output waveform diagram of each block of FIG. 1A.

In the figure, a ringing signal source 1 in which an AC ringing signal is superimposed on a DC voltage is provided, and a lease resistor 2 for controlling the current V and a lease resistor 2 are connected in series with the ringing signal source 1. The light emitting diodes 10a and 10b connected in parallel so that the anode and the cathode are reversed are connected in series.

The other ends of the light emitting diodes 10a and 10b are
The returning subscriber line 4 connected to the subscriber line 4 via the contact point r ₁ of the call signal transmitting relay 3 and returning via the terminal 5 returns via the other contact point r ₂ of the calling signal transmitting relay 3. Is connected to the side current control resistor 6, and the other end of the current control resistor 6 is connected to the ringing signal source 1. Also, C _B , R _B , and L _B are
Equivalent level circuit of terminal 5, S is switch, R _T is off,
Terminal DC resistance when hooked.

Further, the collector of the secondary side phototransistor 11 having a light receiving portion driven by the light reception of the light emitting diodes 10a and 10b is connected to the positive power source, and the emitter is connected to the ground (ground) via the resistor 11a. It

Further, the emitter of the transistor 11 is connected to the input of the logic circuit 12 and has a digital comparator 14 for judging the output by the value of the counter 13 which counts the high level output width of the logic circuit 12 by the clock. ..

The ringing signal source V _S , in which the _AC ringing signal V _AC is superimposed on the DC voltage V _DC , closes the contacts r ₁ and r ₂ of the relay 3 for sending out the ringing signal, thereby leasing the resistor 2 and the light emitting diode. A signal is sent to the bell circuit of the terminal 5 via 10a and 10b and the subscriber line 4.

Since the switch S is open when the terminal 5 is ON-HOOK, the bell circuit R _B ,
Only an AC signal flows through L _B and C _B, and a current flows through the light emitting diodes 10a and 10b for a positive or negative half cycle, respectively, and the light receiving transistor 11 on the secondary side is turned on at a duty of 50%. -By turning off, the input of the logic circuit 12 changes to high and low with a duty of 50%.

The output of the logic circuit is a high speed clock for the calling signal (for example, a frame signal of 8 KHz is used) CL
Using K, high and level times are counted by the counter 13. If the call signal frequency is 20 Hz, the time at the high level is (1 / 20H) z × (1/2), which is 2
Counter value is 25 mS / 125 μS = 20 at 5 mS
It never exceeds zero.

Next, since the switch S is closed when the terminal 5 is OFF-HOOK, a DC loop is formed, and the ringing signal current has a DC offset, so that the current flowing through the light emitting diodes 10a and 10b is unbalanced. A balance occurs, and the duty of the light receiving transistor 11 on the secondary side is
It is no longer possible to maintain the ratio of 50%. For example, DC voltage V _DC
Is −48 V and the alternating current calling signal V _AC is 75 Vrms, the duty is twice sin ⁻¹ (48 / (75 × √
2)) / 360 = 14.9% change.

The counter value for counting the high level time converted from the calling signal is 400 × 0.149 =
It became 59.6, increased by 59 counts, and shows 259 counts.

By setting the set value of the digital threshold value (DTH) for detecting the presence or absence of the loop to an intermediate value between 200 and 259 (for example, 229), it is determined whether or not the set value is reached. To do.

By using a counter that counts the low level width of the output of the logic circuit 12 as the counter, the low level is counted, and the determination is made by setting the digital set value to 170.

By using a counter that counts both the high level output width and the low level output width of the output of the logic circuit 12 as the counter, the result determined by the high level counter output and the result determined by the low level counter output The output of the ring trip circuit is the logical sum of and.

[0027]

As described above, according to the present invention, the primary side of the ring trip circuit, which requires high breakdown voltage, and the secondary side, which is capable of low breakdown voltage, are completely insulated and separated by using the optical coupling element. By doing so, it is possible to reduce the load of the ringing signal source that is constantly connected.

Furthermore, since the analog processing using the conventional low-pass filter is used as the interface of the digital circuit and is realized by the digital logic circuit, there is no component such as an external capacitor that requires the accuracy, and the digital LS.
The affinity with I can be improved.

[Brief description of drawings]

FIG. 1A is a block diagram showing an embodiment of the present invention,
(B) is a figure showing an output waveform of each block of the present invention.

FIG. 2 is a block diagram showing a conventional example.

[Explanation of symbols]

 1 Calling Signal Source 2 Lease Resistor 3 Calling Signal Sending Relay 4 Subscriber Line 5 Terminal 6 Current Limiting Resistors 10a, 10b Light Emitting Diode 11 Phototransistor 12 Logic Circuit 13 Counter 14 Digital Comparator

Claims (3)

[Claims] 1. A ringing signal source in which an AC ringing signal is superimposed on a DC voltage, a lease resistor connected in series to the ringing signal source, and a parallel connection such that an anode and a cathode are reversed,
A pair of light emitting diodes connected in series to the lease resistor, a transistor driven by receiving light from the light emitting diode, a logic circuit having an output of the transistor as an input, and an output width of the logic circuit is counted by a clock. A ring trip circuit comprising: a counter; and a comparator that determines an output based on the value of the counter. 2. The ring trip circuit according to claim 1, further comprising a counter that counts a high level width or a low level width of the output of the logic circuit. 3. A counter for counting both the high level output width and the low level output width of the output of the logic circuit, and the logical sum of the counter value outputs of both the high level output width and the low level output width. The ring trip circuit according to claim 1, wherein