DE2105574A1 - See circuit arrangement for an electric or electronic buzzer - Google Patents

Description

Circuit arrangement for an electric or electronic buzzer The invention relates to a circuit arrangement for an electrical or electronic Buzzer that works in the output of an astable, preferably with complementary Transistors built up multivibrator is switched on and through this at the Signaling can be switched on and off intermittently, especially for use for electric or electronic alarm clocks.

The purpose of the patent application is, i.e. the signaling of electrical and electronic alarm clocks and appointment signaling devices to suit individual needs To adapt the needs of the group of people to be addressed with the signaling.

It is known to have an electric or electronic buzzer in the Switch on the output of an astable multivibrator and the buzzer with every pulse of the output transistor to respond for a certain period of time becomes the acoustically more pleasant and considerably more energy-saving intermittent signaling of the buzzer reached0 The annoying and in many cases. with high Continuous tone associated with power consumption can be suppressed 80 on the other hand also mechanical-electrical devices knowngeword.en with which it is possible is to achieve an intermittent signaling through the clockwork of the alarm clock. This is the case with an embodiment of such an alarm clock that has become known realized that a cam wheel, which is immediately downstream of the gear folder is, so has a relatively favorable angular velocity, at d.er Alarm or appointment signal triggering mechanically shifted axially and thus in the area the actuating spring of a contact spring set is brought with the wake-up signal generator and the power source is connected in series0 by an alternating closure and interruption of the contact spring set and thus the wake-up signal circuit generates the intermittent alarm signal. In this known arrangement is also the possibility provided the cam wheel. when the alarm signal is triggered slowly in the area of the spring set to be brought. This means that only very short impulses are generated at first administered in the wake-up signal circuit, which gradually increase in duration, until they finally reach a maximum, by changing the pulse duration of the intermittently emitted signal is depending on the needs of the the signal from the group of people to be addressed increases its intensity continuously, until a maximum is reached. This enables the signaling to be individually adapted possible, as the intensity increases until the in Question coming person is awakened and. the manual deactivation of the wake-up or Tenninsignales can take place 0 From person to person it becomes one require different pulse durations to achieve this goal. The intensity the wake-up signal is only increased for as long as this is necessary in each case is required. A shock-like actuation, for example by means of a continuous tone or an impulse tone of full duration is prevented.

There is also an arrangement known in which at the moment d Signal triggering a laterally scanned contact disk coupled with the clockwork is .. Contact segments are arranged on the contact disk, i.e. one after the other be scanned and thus allow intermittent contact. Through different The signal intensity can be adjusted according to the distances between the contact segments of this contact disk and after being enlarged0 disadvantage of these known devices, which after and after an increase in the intensity of the wake-up signal is possible once the mechanical load on the movement due to the contact to be applied, as well as the unavoidable wear and tear of the latter due to continuous actuation during the alarm signal.

The structure of the movement is complicated by this arrangement and increases the susceptibility to failure. A variation or adaptation of the increase in intensity However, it is not possible to adapt to individual needs0 It is therefore the task of the Patent application, in the circuit arrangement with an astable multivibrator in whose output is an electrical or electronic buzzer switched intermittently is energized to provide such a modification or addition that the pulse duration of the intermittent signal from short impulse up to one The maximum value, which can also be a continuous tone, is changed. A contactless The operation of the circuit must be preserved and the power consumption not or only insignificantly rise, The invention solves the problem in that the multivibrator circuit one consisting of at least one capacitor and at least one resistor Balancing circuit is assigned, which can be wired together with the multivibrator and that by the during. voltage change occurring at the capacitor during the compensation process gradually at least the output transistor of the multivibrator can be opened is, so that after a continuously increasing pulse duration this finally one Maximum value, which can also be a continuous tone, is reached and lasts until through manual or automatic signal switch-off, the wake-up signal circuit interrupted and. d.the compensation circle is reset.

A useful embodiment of this invention is that the Compensation circuit designed as an RC charging circuit and to which also the multivibrator circuit supplying current source is switched on0 An advantageous embodiment of the circuit arrangement the invention is seen in the fact that the compensation circuit with the input of a special transistor is connected, i.e. through it during the equalization process variable collector-emitter resistance the Time constant of a die The working frequency of the astable multivibrator can be influenced is.

This can be done in an advantageous manner by means of such a circuit arrangement happen that the special transistor connected to its base with the capacitor with its collector-emitter resistor the operating frequency of the astable one Multivibrators determining balancing resistance. is connected in parallel.

When equipping the circuit arrangement of the astable multivibrator with RC-coupled complementary transistors there is an advantageous design the invention is that - in a multivibrator with transistors opposite Conductance types, of which the emitter of a first transistor with a first pole the voltage source and. the collector connected to the base of the second transistor whose emitter is connected to the second voltage pole and its collector is connected to the buzzer lying on the other hand at the first voltage pole and the collector of the second transistor to the base of the first through a capacitor is connected and this base of the first transistor to the second voltage pole about a resistor. verbund.en is - i.e. the special transistor of the first opposite conductance type is and. with its emitter to the second voltage pole switched on and connected to its collector via a series resistor with the base of the first transistor is connected.

The arrangement of the invention has the advantage that the load given by the known mechanical-electrical contact device of the clockwork is prevented that the susceptibility of such a mechanical-electrical Contact arrangement is bypassed and. that the modification of the known circuit arrangement with just a few components and. with only an insignificant increase in power consumption is reached0 Furthermore, one and the same power source can be used and a reset the circuit arrangement through the wake-up signal switch-off contact possible. It exists furthermore the advantage that the circuit arrangement according to the invention - expedient combined with the buzzer to form a structural unit - with every alarm clock with an electric one or electronic alarm signaling can be used, regardless of the Special features of the contact device.

The invention is illustrated in detail in the accompanying drawings The figures show: FIG. 1 a circuit arrangement of a multivibrator with electronic working buzzer and intermittent alarm signaling.

Figure 2 shows a circuit arrangement according to Figure 1, but with the through the invention given modification.

Figure 9 an assembly picture. the circuit arrangement according to the invention, In FIG. 1, w1 and w2 are the windings that are electrically inductively coupled to one another of the electronic buzzer W, one of which (wl) in the input of the transistor Tw and the other (w2) whose output is connected to the transistor and windings wl and w2 act as a relaxation oscillator and the relaxation current becomes the Core and. the armature of the buzzer is magnetically applied 0 This causes the armature system to break in turn in vibrations and the functioning of the buzzer system as a relaxation oscillator that of a mechanical-electrical oscillator is superimposed. This is because of it possible, i.e. the vibrating armature acts inductively on the input coil wi and generated retroactively by means of the transistor in the winding w2 Current flow applied and. is driven. The resistance Rw of the buzzer is used to raise the operating point of transistor Tw to reduce the oscillation conditions of the circuit. This becomes the self-start or self-excitation of the buzzer guaranteed.

The buzzer W is now in the collector circuit at terminals a and b of the output transistor one of the transistors Tl nnd. T2 and other components The existing multivibrator circuit is switched on. The emitter-collector circuit of the The transistor Tw with the winding w2 of the buzzer is connected to the collector-emitter circuit of the transistor T2 of the multivibrator circuit connected in series. Both circles lie between the voltage poles + 1.5 V and. O, The transistor Tl d.er multivibrator circuit is by one of the collector of the transistor T2 after the base of transistor T1 leading RC circuit fed back, the emitter of transistor T1 is at the opposite voltage pole, that of the emitter of the transistor T2. The base of transistor <1 is connected to the voltage pole via a resistor R3 0 and its collector (T1) connected to the base of transistor T2. The transistors T1 and T2 are of opposite conductivity, transistor Tl is pnpn> transistor T2 npn conductive.

The circuit arrangement consisting of the electronic buzzer and multivibrator is connected in series with contacts WK and WAT.

WAT provides the normally closed alarm signal switch-off contact which was used to manually interrupt the signaling. Contact WK is the Wake-up signal triggering device assigned and can, for example, by an axially sliding hour tube of the alarm clock mechanism are operated 0 Contact WK closes always when the set alarm time is reached and the alarm signal should be administered.

Close @@ contact WK, so are. the transistors T1 and T2 initially not conductive. Instead, a weak current of + 1.5 flows through Tws w2, R4, C2, R3 to 0. Capacitor C2 is charged and the charging voltage rising across it finally causes the base of transistor T1 to slowly open it, which also makes transistor T2 conductive. will. As a result, Tw and w2 also receive electricity and the voltage drop occurring at these causes a charge reversal via R4 and. C2> so that C2 is now over + 1.5, base Emitter path from T1, resistor R4 and and collector-emitter path from T2 to 0 is charged. This charging process is carried out by the transistors that are turned on more and more at the same time T1 and T2 accelerated regeneratively so that the switch-on process takes place quickly It lasts until one of the two transistors T 1 or T2 is turned on will. and. thus the voltage change at C2 reached the value 0, which means that the Base current of T1 becomes 0 and T1 and. thus also block T2, the voltage drop at Tw and w2 is reduced immediately, so that the shutdown process is a degenerative one The buzzer W is switched on for the duration of the pulse and sounds for a certain period of time, the pulse time is essentially through determines the time constant of the recharging circuit described, doh. essentially through resistor R4. After the end of the pulse, the capacitor is recharged 02, in the circuit already described in the introduction, up to at the base of transistor Tl there is a negative voltage with such a value, that Tl is opened.

The functional game described here recovers.

This pulse pause will. essentially by the time constant of this Reloading circuit determined, d..ho essentially by the resistance value of R30 In accordance with the invention, the above is now described. and shown in FIG Circuit arrangement on from the resistor. R1 and capacitor C1 formed Compensation circle and associated from the transistor T3 and the Resistor R2 assigned to the existing transistor stage. This circuit arrangement is shown in Figure 2. When the contact WK is closed by the wake-up signal triggering device In addition to the buzzer W and the multivibrator AMV, the component is also made from the components Rl and. Cl existing compensation circuit energized. The time constant of this compensation circle is chosen to be very large, so that the capacitor Cl only very slowly across the resistor Rt is charged0 One connection of the capacitor Cl is to the base of the transistor T3 placed, in the collector circuit of which a series resistor R2 is connected and. the together with this, in parallel with that, essentially the time constant of the pause determining resistor R3 placed * st.

After switching on the circuit arrangement through the contact WK the multivibrator circuit AMV is initially active and the buzzer W becomes rhythmic switched on. This repetitive function of the buzzer W becomes. in their pulse-pause ratio essentially determined by the resistors R4 and R3; it initially remains constant.

Gradually, the charging voltage of the capacitor Cl reaches above d.en Finally, the charging resistor R1 is the value of the threshold voltage of the emitter-base path of the transistor T3, so that it gradually becomes conductive and across the resistor R2 influences the effective value of the resistor R3 bo, i.e. the time constant of the the Pulse pause of the multivibrator AMV essentially determining Components C2 and R3, is gradually decreased. This means that the Pulse pause of the function of the buzzer W is continuously shortened while the pulse duration remains about the same. The pulse pause is depending on the value of the resistor R2 of the astable multivibrator AMV finally reduced in such a way that the transistors T1 and thus also T2 remain connected and the buzzer W emits a continuous tone will.

By manually opening the WAT switch or the WK contact, the supply of the circuit arrangement is interrupted and the buzzer is shut down. Simultaneously the charges of the capacitors Cl and C2 are gradually erased via the resistance and transistor circuits, so that when switched on again, the circuit arrangement has its Function in the manner described.

Depending on the value of the resistor R2, the Multivibrators AMV up to a certain minimum value of the pulse pause or else can be reached until a continuous tone is heard R2 as an adjustable resistor could be individually adjusted by the operator 0 It is also conceivable to make the resistor R1 variable, so that the timing of the pulse-pause ratio can be preselected.

In the figure 3 is the structural arrangement of the circuit arrangement reproduced. Buzzer W, astable multivibrator AMV and. Compensation circle VS become expediently summarized by the circuit board and as such a closed structural unit built into the alarm clock mechanism or the appointment reservation clock.

Training as an integrated circuit for large quantities is of course possible.

An embodiment of the circuit arrangement according to the invention had to have the following equipment: R1 = 3.9 M # C1 = 24 µF T1 = BC 258 R2 = l00 # C2 = 4.7 µF T2 = BC 168 R3 = 470 k # T3 = BC 168 R4 = 20 ka All transistors make from Siemens.

In this exemplary embodiment, there was a repetition time of the Wake-up signal of about 40 seconds, during which about 2o signal impulses were given, followed by the continuous tone.

- patent claims -

Claims (1)

Claims) io circuit arrangement for an electrical or electronic buzzer, i.e. in the output of an astable working, preferably with Complementary transistors built multivibrator is turned on and through this can be switched on and off intermittently during signaling, in particular for use with electric or electronic alarm clocks and. Appointment clocks, characterized in that the multivibrator circuit (AMV) on from at least a capacitor (Cl) and at least one resistor (R1) consisting of compensation circuit is assigned, which can be wired together with the multivibrator (AMV) and. that due to the voltage change occurring on the capacitor (C1) during the equalization process gradually at least the output transistor (T2) of the multivibrator (AMV) can be controlled is, so that after a continuously increasing pulse duration until they finally have a Maximum value, which can also be a continuous tone, is reached and lasts until through manual or automatic signal cut-off (WATT WK) of the wake-up signal circuit interrupted and the compensation circuit (C1 Rt) is reset 2. Circuit arrangement for an electric or electronic buzzer according to claim 1, characterized in that the compensation circuit is designed as an RC charging circuit and to the current source (1,5; 0) that also supplies the multivibrator circuit (AMV) switched on is0 3. Circuit arrangement for an electrical or electronic Buzzer according to claim 1 and 2, characterized in that d.aß d.er compensation circuit (C1, Rt) is connected to the input of a special transistor (T3) through its collector-emitter resistance, which is variable during the equalization process. the Time constant of a determining the working frequency of the astable multivibrator (AMV) Compensation circuit (c2, R3) can be influenced is0 4, circuit arrangement for an electrical or electronic buzzer, according to claim 1 - 3, characterized in that the Traynsistors (T3) connected with its base to the condensate> r (C1) with its Collector-emitter resistance to the operating frequency of the astable multivibrator (AMV) determining balancing resistor (R3) is connected in parallel 0 5. Circuit arrangement for an electric or electronic buzzer according to claim 1 - 4 characterized in that - opposite in a multivibrator with transistors Conductance type (pnp - npn), of which the emitter of a first transistor (does) with a first pole of the voltage source (+ 1.5) and the collector with the base d.es second transistor (T2) is connected, the emitter of which is connected to the second voltage pole (0) switched and its collector with the other at the first voltage pole (+ 1 @ 5) lying buzzer (W) is connected and. the collector of the second transistor (T2) is connected to the base of the first (tut) through a capacitor (C2) and this base of the first transistor (T1) with the second voltage pole (o) via a Resistance. (R3) is connected - the third transistor (T3) from to the first (pnp) opposite conductance type (npn) and with its emitter to the second Voltage pole (0) switched on and with its collector via a series resistor (R2) is connected to the base of the first transistor (tut). 6. Circuit arrangement for an electrical or electronic Buzzer according to claim 1 - 5, characterized in that the resistance (red) of the Compensation circuit (R1 C1) adjustable and thus the change in the signal intervals is variable 0 7. Circuit arrangement for an electrical or Electronic buzzer according to Claims 1 to 6, characterized in that the structural unit tes buzzer (W) of the multivibrator (AMV) and the compensation circuit (VS) have a common Form Baneinheit and on a common support plate with a printed circuit are arranged and electrically connected.