CS216279B1 - Connection of thelectroaccoustic signal - Google Patents

Description

(54) Electroacoustic signal wiring

The invention relates to an electroacoustic signal wiring of a suitable pira terminal telecommunications device instead of an outside which comprises a bridge rectifier with a filter capacitor, a threshold switching circuit, a voltage stabilizer, an oscillator, and an end amplifier with an electroacoustic converter.

At present, there are a large number of different wiring of single-tone or multi-tone electroacoustic signals as an equivalent substitute for an alternating bell. Electroacoustic signal wiring uses either harmonic or relaxation oscillators that drive electroacoustic transducers directly or via terminal amplifiers. The signals are powered by one-way or two-way rectified ringing voltage.

A disadvantage of the above mentioned connections is the dependence of the signal signal frequency on the size and frequency of the supply voltage as well as the change of the signal signal frequency during the rise and rebound of the tone. When using an electroacoustic signal in a telephone, the signal is "pinging" when the accounting loop is opened, for example, as two telephone sets are connected in parallel.

These drawbacks are solved by the wiring of an electroacoustic trailer according to the invention. SUMMARY OF THE INVENTION The terminal amplifier is connected by its negative supply terminal to the negative terminal of the bridge rectifier, the negative terminal of the threshold switching circuit, the first terminal of the filter capacitor and the first terminal of the voltage stabilizer and the oscillator connected to the terminal of the terminal amplifier. it is connected by its negative terminal to the output of the voltage stabilizer, the first input of the voltage stabilizer being connected to the output of the threshold switching circuit.

The circuitry according to the invention comprises a switching voltage stabilizer for the tone signal oscillator, the frequency of which is not dependent on the size of the power supply wattage of the signal. The voltage stabilizer is switched by the threshold switching circuit so that the oscillator starts to operate only when the supply voltage of the electroacoustic trailer reaches the threshold voltage of the switching circuit. When the power supply voltage of the electroacoustic signal drops below the stabilized supply voltage of the oscillator, the threshold circuit disconnects the power supply to the oscillator. This avoids changing the frequency of the signal signal as it rises and declines after connecting and disconnecting the power to the electroacoustic signal. The threshold circuit also prevents the "acne" of the electroacoustic signal when short overvoltage pulses occur at the signal input by disconnecting the subscriber loop.

In the picture no. 1 shows an example of an electroacoustic trailer with a threshold switch circuit according to the invention. Picture no. 2 shows the volt-ampere characteristic of the threshold switching circuit.

Connected to the output terminals 111, 112 of the bridge rectifier 1 is a parallel filter capacitor 17 and a threshold switching circuit 2, the negative supply terminal 22 of which is connected to the first terminals of the third, fourth and seventh resistors 12, 13, 16. circuit 2 is connected to the first terminals of the first two resistors 10, 11 and the emitters of the first two transistors 7, 8. The second terminal of the first resistor 10 is coupled to the base of the first transistor 7 and the emitter of the third transistor 9. The collector of the first transistor 7 is connected to the base of the second transistor 8 and the second terminal of the third transistor 9 is connected to the second terminal of the fourth resistor 13. The second terminals of the fifth to seventh resistors 14, 15, 16 are connected to each other. The output 23 of the threshold switching circuit 2 is connected to the collector of the second transistor 8 and the first terminal of the sixth resistor 15.

The output 23 is connected to the first input 34 of the voltage stabilizer 3, whose first output 31 is connected to the positive terminal 111 of the bridge rectifier 1 and its second output 33 is connected to the negative power terminal 42 of the oscillator 4, the positive power terminal 41 is connected to the positive terminal 111, while its output 43 is connected to the input 53 of the final amplifier 5. Its positive power terminal 51 is connected to the positive terminal 111 and the negative power terminal 52 to the negative terminal 112. The voltage stabilizer 3 consists of a transistor 37 whose base is connected to a zener diode 36 and a resistor 35, the other end of which is connected to the first input 34. The emitter of transistor 37 is connected to the second output 33 and the collector via the first terminal 32 of the voltage stabilizer 3 with the negative terminal 112. .

Bridge Rectifier 1 with Filter Capacitor 17 provides the required supply voltage for the final amplifier and axis / '

J is a capacitor 4, for which the supply voltage is still stabilized by a voltage stabilizer 3 by a switching threshold circuit 2. The character of the signal of the electroacoustic signal depends on the design of the oscillator 4. An output amplifier 5 with an electroacoustic transducer 6 is driven from the output of the oscillator 4.

To clarify the operation of the electroacoustic trailer, it is first necessary to explain the operation of the threshold switching circuit

2. While the voltage at the feeder terminals 21, 22 is less than the threshold voltage Up, the first and third transistors 7, 9 are closed, the second transistor 8 is open, the current flowing through the circuit depends on the size of the sixth and seventh resistors 15, 16. By increasing the voltage at the terminals 21, 22 of the threshold switching circuit 2, the sum of the voltage drops on the second transistor 8 and the fifth resistor 15 increases. When this sum reaches 2. In _{BE of the} first and third transistors 7 and 9, these transistors 7, 9 begin to open and the second transistor 8 closes. This change runs avalanche, the circuit gets into a second stable state. The threshold circuit will be a current flow, the magnitude of which will depend on the values of the seven resistors 10, 11, 12, 13, 14, 15, 16. The switching circuit 2 will remain in this state until the voltage terminal on the second resistor 11 drops below 2. V _S e of transistors 7, 9, that is, until the voltage at the terminals 21, 22 of the threshold switching circuit 2 drops below the cut-off voltage Uz. The values of the threshold voltage and current Up, Ip, the reverse voltage and the current Uz, Iz can be changed by appropriately selecting the values of the second, fifth, sixth, seventh resistors 11, 14, 15, 16. The output 23 of the threshold switching circuit 2 That is, while the voltage at the output terminals 111, 112 of the bridge rectifier 1 is less than the threshold voltage Up, the fourth transistor 37 is closed, the oscillator 4 does not have a supply voltage. When the voltage at the terminals 111, 112 of the bridge rectifier 1 exceeds the threshold voltage value Up, the second transistor 8 closes, thereby opening the fourth transistor 37, the stabilized supply voltage necessary for its operation is connected to the oscillator 4. The oscillator will operate until the voltage at the output terminals 111, 112 of the bridge rectifier 1 drops below the back-up voltage Uz, which is selected slightly more heavily than the stabilized supply voltage for the oscillator. This ensures that the signaling signal of the electroacoustic signal is independent of the supply voltage value. The character of the signal is then only dependent on the wiring and characteristics of the oscillator 4.

The electroacoustic trailer connection according to the invention can be used, in particular, in telephone sets, operating tables to telephone exchanges and wherever the signaling signal of the acoustic signal is required to be independent of the supply voltage.

Claims (2)

OBJECT OF THE INVENTION Wiring of an electroacustiate hinge characterized in that the terminal amplifier (5) is connected with its negative supply terminal (52) to the negative terminal (112) of the bridge rectifier (1), the negative terminal (22) of the threshold switching circuit (2), the first terminal f the capacitor (17) and the first voltage stabilizer outlet (32) and the oscillator (4), which is connected by its output (43) to the input (53) of the final amplifier (5), is connected by its negative supply terminal (42) with a second output (33) of the voltage stabilizer (3), the first input (34) of the voltage stabilizer (3) being connected to the output (23) of the threshold switching circuit (2). Wiring according to Claim 1, characterized in that the threshold switching circuit (2) consists of three transistors (7, 8, 9) and seven resistors (10, 11, 12, 13, 14, 15, 16), wherein the positive power terminal (21) of the threshold switching circuit (2) is connected to the first terminals of the first two resistors (10, 11) and the emitters of the first two transistors (7, 8), the negative power terminal (22) of the threshold switching circuit (2) is connected to the first terminals of the third, fourth and seventh resistors (12,13,16), the second terminal of the first resistor (10) is connected to the base of the first transistor (7) and the emitter of the third transistor (9); connected to the base of the third transistor (9) and the first terminal of the fifth resistor (14), the collector of the first transistor (7) is connected to the base of the second transistor (8) and the second terminal of the third resistor (12); second terminal of the fourth resistor (13), output (23) of the threshold switching circuit (2) it is connected to the collector of the second transistor (8) and the first terminal of the sixth resistor (15) and the second terminals of the fifth to the seventh resistor (14, 15, 16) are connected to each other.