DE2402801A1 - Hearing aid transistor amplifier - has a monolithic integrated circuit differential amplifier with AGC - Google Patents

Abstract

The amplifier forward slope is adjustable, and a control voltage, which is a function of the signal voltage behind the amplifier, is applied to its control input. The amplifier has two transistors with positive feed-back and with joined together emitters. A controllable current generator is in the common emitter connection, and a transistor output stage. Collectors of the above two transistors are each connected to an intermediate transistors base. The collector of one intermediate transistor is connected to the base of a first output transistor, and the collector of the other through a phase inverting transistor to the base of a second output transistor of opposite conduction type. Collectors of the two output transistors are joined together, and form the amplifier output.

Description

Transistor hearing aid amplifier with automatic gain control The invention relates to a transistor hearing aid amplifier with automatic Gain control.

The electrical ones belonging to a transistor hearing aid amplifier Components are usually discrete components in miniature design. For this The reason for this is not just the fact that the components in a hearing aid amplifier are relatively proportionate small circuit board significant difficulties, but it must also be after soldering of the component connections with the printed conductor tracks can be expected, that due to the high packing density of the components some amplifiers of a series of amplifiers show electrical faults that only occur afterwards to a test can be eliminated by subsequent soldering.

The invention is based on the object of a transistor hearing aid amplifier to create, which greatly simplifies the series production of such amplifiers, the data that is at least equivalent to the conventionally constructed and manufactured data Has hearing aid amplifier that can be expected to have a low reject rate and with a low battery voltage.

According to the invention This object is achieved according to the invention in the case of a transistor hearing aid amplifier of the type mentioned in the introduction, that the hearing aid amplifier is a monolithically integrated operational amplifier with adjustable forward steepness and that on one to adjust the Forward slope serving control input of the operational amplifier one of the Level of the signal voltage behind the operational amplifier as a function of the control DC voltage lies.

Integrated operational amplifier with adjustable forward slope, also called Operational Transconductance Amplifier (OTA), have an inverting and a non-inverting input an additional control input for feeding a control current or a control voltage. The level of the output signal of a such operational amplifier depends on the respective size of the control current set forward steepness and the size of the voltage difference between the inverting and the non-inverting input. Because of their low power consumption and their high slew rate are said operational amplifiers preferably in multiplexers, amplitude modulators, analog multipliers, control amplifiers, Multivibrators or the like are used.

The application of an integrated operational amplifier with adjustable Forward slope as a hearing aid amplifier with automatic more automatic Gain control has the advantage of extremely low power consumption and the very small spatial dimensions at the same time have the advantage that this Amplifiers can be produced in large numbers with consistent quality and that the assembly of a hearing aid can be carried out much faster than before leaves.

In a further development of the invention is a transistor hearing aid amplifier designed such that the operational amplifier with adjustable forward slope two emitter-coupled transistors, one in the common emitter lead controllable current generator in current mirror circuit and a transistor output stage includes that the emitter-coupled transistors on the collector side with the base each of an intermediate transistor are connected to that the collector of an intermediate transistor with the base of a first output stage transistor and the collector of the other intermediate transistor via a transistor for phase reversal with a second output stage transistor from opposite conductivity type as the first output stage transistor connected and that the collectors of the first output stage transistor and the second output stage transistor are directly connected and form the output of the transistor amplifier.

A transistor hearing aid amplifier with the last mentioned features is particularly suitable for hearing aids with the smallest dimensions, as it is equipped with a Supply voltage less than or equal to 1.5 volts is sufficient, d. H. with a battery that has a nominal voltage of 1.2 volts, for example. Until now known integrated operational amplifier with adjustable forward slope usually require a minimum supply voltage for proper functioning of 1.5 volts, i.e. H. a voltage that a battery only has when it is freshly charged would achieve. The reduction of the required supply voltage for the amplifier is possible with the present circuit because it is in the output stage of the amplifier the sum of the threshold voltages given by the number of semiconductor elements has been made as low as possible.

There is another particularly advantageous embodiment of the invention in that the controllable current generator contains four transistors that the emitter-collector path of the first transistor connected as a diode in series with at least one resistor between a connection point of fixed potential and ground is that the second, also as a diode connected transistor with its collector via a resistor to the collector or the base of the first transistor and the emitter to ground is connected that the third transistor with its base at the base potential of the second transistor and with its emitter-collector path between the Emitter of the emitter-coupled transistors and via an emitter resistor with Ground is connected and that the collector of the fourth transistor to the base of the second and third transistor, its emitter to ground and its base to are connected to a terminal for supplying the DC control voltage.

Will Will the controllable power generator in the aforementioned Well structured, then very small working currents can be realized without that for this purpose resistors with large resistance values (e.g. over 20 kn) should be inserted which are known to be poorly integrated into an integrated system for technological reasons Have circuit included.

The principle and further advantageous embodiments of the invention are explained using an exemplary embodiment.

In the drawing: FIG. 1 shows a complete circuit diagram of a Hearing aid preamplifier with an operational amplifier with adjustable forward slope and FIG. 2 shows a control characteristic which shows the dependence of the output sound pressure PA of the transistor amplifier from the input sound pressure PE.

According to the circuit diagram in Fig. 1 'has a transistor hearing aid amplifier an input 1, an output 2, a connection 3 for a regulated DC operating voltage + UB and a connection 4 for a control DC voltage UR. Essential components of the amplifier are those framed by dash-dotted lines in the drawing Assemblies, namely a differential amplifier 5, a controllable current generator 6 and an output stage 7. The amplifier shown in Fig. 1 forms, for example, one Preamplifier for a hearing aid with a single-ended or push-pull transistor output stage.

Of the Input 1 of the transistor hearing aid amplifier is connected to the base of a transistor 9 via a coupling capacitor 8, its collector via a resistor 10 to the positive pole of the DC operating voltage and the emitter of which is connected to ground via a resistor 11. The collector of the als The transistor 9 serving the preamplifier stage is connected to the base of a transistor 12 of two emitter-coupled transistors 12, 13 in connection. The basis of the other transistor 13 is, as explained below, at an approximately constant Potential.

The collectors of the transistors 12 and 13 are each one with the base Intermediate transistor 14, 15 connected, the emitter of which is at the positive operating potential and their collectors each form an output of the differential amplifier 5. The base and emitter of the two intermediate transistors are each a diode switched transistor 16, 17 bridged, with the base and collector of each transistor 16, 17 with the base of the associated intermediate transistor 14, 15 and the emitter of transistors 16, 17 are connected to the emitter of the associated intermediate transistor are. The collector currents of the transistors 12, 13 are supplied by the current generator 6, at the output of the interconnected emitters of the transistors 12 and 13 connect.

The controllable current generator 6 comprises four transistors 18 to 21. The transistor 18 is connected as a diode, and its collector and thus directly connected base is via two series-connected resistors 22, 23 with the positive operational potential Operating potential + UB in connection. The emitter of the first transistor 18 is at ground potential. From the collector or the base of the first transistor is connected via a resistor 24 to the collector of the second transistor 19, the base of the same transistor and the collector of the fourth transistor 21. While the base of the third transistor. 20 is connected to the base of the second transistor 19, exists between the Collector of the third transistor 20 and the two emitters of the transistors 12 and 13 a conductive connection and between the emitter of the third transistor 20 and ground a connection leading via an emitter resistor 25. In the with Ground connected to the emitter lead of the transistor 21 is an adjustable resistor 26. There is a resistor between the base of the fourth transistor 21 and ground 27 and in a control voltage line connected to the base of the same transistor 28 an adjusting resistor 29, to which the terminal 4 for the control DC voltage UR connects.

As already mentioned above, the collectors form the intermediate transistors 14 and 15 each have an output of the differential amplifier 5. One output is with the base of a transistor 30 for phase inversion and amplification and the other output connected to the base of a first output stage transistor 31. Between the bases of the first output stage transistor 31 and the transistor 30 and ground is one each Emitter-collector path each of a transistor 32, 33, the base of which is open.

While During the emitter of transistor 30 immediately is connected to ground, exists between the emitter of the first output stage transistor 31 and the emitter of the third transistor 20 of the Stromgeneratörs 6 a conductive Link. The base of a second connects to the collector of transistor 30 Output stage transistor 34 on. The transistors 31 and 34 are of the opposite one Conductivity type, namely the emitter of transistor 34 is on the positive Operating voltage potential, while the collectors of the two transistors 31 and 34 are directly connected to one another and the emitter of the first output stage transistor 31, as already said, with the emitter of the third transistor 20 of the current generator 6 is connected. Between terminal 3 of the transistor amplifier and the base of the second output stage transistor 34 for phase reversal is still one connected as a diode Transistor 35. From the two interconnected collectors of the transistors 31 and 34 leads one connection to the output 2 of the transistor amplifier and one another connection via a T-link consisting of two series resistors 36 and 37 and one Shunt capacitor 38 connected to ground to the base of transistor 9.

The following is the mode of operation of the modules 5, 6 and 7 as well as of the entire transistor amplifier explained in more detail. Located at the input of the transistor amplifier According to FIG. 1, a signal voltage supplied by a microphone, for example, then becomes this preamplified by the transistor 9. The emitter resistor 11 of the transistor 9 generates in connection with the to the resistance Resistance in parallel switched capacitor 39 a frequency-dependent current negative feedback and thus an increase in the higher-frequency signal voltage components. The pre-amplified signal voltage reaches the base of the first transistor 12 of the differential amplifier 5. The with the facing terminals of the resistors 22 and 23 connected base of the second transistor 13 of the differential amplifier 5 is, for example, on one approximately fixed direct voltage potential of around 850 mV. The sum of the collector currents of the two transistors 12 and 13 is determined by the controllable current generator 6, which is designed as a constant current source in a current mirror circuit. A special feature of the current generator 6 consists in that the transistor 18, which is connected as a diode ensures that, despite relatively small output currents, high-impedance Resistances (greater than 20 kn) can be dispensed with. For controlling the controllable power generator 6, the fourth transistor 21 is used, which is controlled by the DC control voltage applied to terminal 4 UR is controllable. The impedance of the emitter-collector path of this transistor depends thus from the. respective size of the control DC voltage and forms a shunt for the base current of transistors 19 and 20. While the sum of the collector currents of transistors 12 and 13 remains largely constant, the ratio changes the collector currents as a function of the value of the input voltage UE. With the Adjustment resistor 29 can be the starting point of the automatic gain control be determined; See point E in Fig. 2. The respective resistance value of the adjustable Emitter resistor 26, the which causes a current negative feedback, determines the slope of the control characteristic according to FIG. 2; see characteristic curves I, II, III.

The DC control voltage UR can either be derived from the output voltage UA of the transistor amplifier according to FIG. 1 or from the output of a subsequent one Power amplifier stage can be derived.

The transistors 14, 16 and 15, 17 of the differential amplifier 5 are used for phase rotation by 180 degrees and for level offset or

for shifting the potential for the purpose of adapting the respective level the output stage 7 and for impedance matching. The antiphase output potentials of the Differential amplifiers 5 are amplified in the output amplifier 7. The Transistors 32 and 33 to compensate for the temperature-dependent residual collector current the intermediate transistors 14 and 15 and the transistors 30, 31.

The transistor 35 of the output stage 7 has the task of the second output stage transistor 34 to give a fixed predetermined gain of about 1, regardless of Technological fluctuations in the current gain.

To stabilize the flowing through the transistors 31 and 34 Cross current in output stage 7 is generated by negative current feedback via the emitter resistor 25 of the third transistor 20 of the controllable current generator 6 made use. The T-element from the series resistors 36 and 37 and the cross capacitor 38 is used the DC negative feedback. In an assumed example for which the Circuit to see resistance or capacitance values apply, has the operating voltage UB the value of approximately one volt.

Claims (11)

Claims il. Transistor hearing aid amplifier with automatic gain ¼) control, characterized in that the hearing aid amplifier is a monolithic contains integrated operational amplifier with adjustable forward slope and that at a control input of the operational amplifier which is used to set the forward slope one of the level of the signal voltage present behind the operational amplifier dependent control DC voltage (UR). 2. transistor hearing aid amplifier according to claim 1, characterized in that that the operational amplifier with adjustable forward slope has two emitter-coupled Transistors (12, 13), a controllable one lying in the common emitter lead Current generator (6) in current mirror circuit and a transistor output stage (7) comprises, that the emitter-coupled transistors (12, 13) on the collector side with the base each'eines Intermediate transistor (14, 15) are connected that the collector of an intermediate transistor (15) with the base of a first output stage transistor (31) and the collector of the other intermediate transistor (14) via a transistor (30) for phase reversal with a second output stage transistor (34) of the opposite conductivity type as the first output stage transistor (31) is connected and that the collectors of the first Output stage transistor (31) and the second output stage transistor (34) directly are connected and form the output of the transistor amplifier. 3. transistor hearing aid amplifier according to claim 1 or 2, characterized characterized in that the controllable current generator (6) has four transistors (18 to 21) contains that the emitter-collector path of the first, connected as a diode Transistor (18) in series with at least one resistor (z. B. 22) between one Connection point of fixed potential (+ UB) and ground is that the second, likewise transistor (19) connected as a diode with its collector via a resistor (24) to the collector or the base of the first transistor (18) and the emitter is connected to ground that the third transistor (20) with its base on the Base potential of the second transistor (19) is and with its emitter-collector path between the emitter of the emitter-coupled transistors (12, 13) and via a Emitter resistor (25) is connected to ground and that the collector of the fourth Transistor (21) to the base of the second and third transistor (19, 20) Emitter with ground and its base with a connection (4) for supplying the control DC voltage (UR) are connected. 4. transistor amplifier according to claim 2, characterized in that the base of one transistor (12) of the emitter-coupled transistors (12, 13) with the input (1) of the transistor amplifier and that the base of the other transistor (13) is connected to a circuit point of approximately fixed potential. 5. Transistor amplifier according to claim 1 or 2, characterized in that that between the output (2) of the transistor amplifier and its input (1) means are provided for direct current negative feedback. 6. transistor amplifier according to claim 5, characterized in that the means of a T-member with two series resistors (36, 37) and a shunt capacitor (38) exist. 7. transistor amplifier according to claim 2, characterized in that to stabilize the via the first and second output stage transistor (31, 34) flowing collector current a current negative feedback is provided such that the Emitter-collector paths of the two transistors connected in series with direct current (31, 34) between a node of fixed potential (+ UB) and the hot one End of an emitter resistor (25) are connected to a transistor (20) of the current generator (6) belongs to the emitter-collector path of the output from the current generator Direct current flows. 8. transistor amplifier according to claim 2, characterized in that the intermediate transistors (14, 15) and / or the second output stage transistor (34) Means are assigned, the production-related tolerances of the current amplification of these Eliminate transistors. 9. Transistor amplifier according to claim 4, characterized in that that the means of one each of the intermediate transistors and the second output stage transistor (34) associated transistor (z. B. 16) consist, whose emitter with the emitter of the associated intermediate transistor (e.g. 14) or of the second output stage transistor and its collector and base connected to the base of the associated transistor is. 10. transistor hearing aid amplifier according to claim 3, characterized in that that the emitter of the fourth transistor (21) of the current generator via an adjustable Emitter resistor (26) is connected to ground. 11. transistor hearing aid amplifier according to claim 3, characterized in that that the base of the fourth transistor (21) of the current generator (6) via an adjustable Resistor (29) connected to terminal (4) for supplying the control DC voltage (UR) is. Blank page