DE1921213A1 - Transistorized saw tooth voltage generator - Google Patents

Description

Dipi.Phy _S .Dr.Waither3unius 1921213

TESIA, narodni podnik, Praha Hloube'tin, Podgbradska 186

! Transistorized sawtooth voltage generator

The invention relates to a sawtooth voltage generator, which is especially designed for slow-running oscilloscopes consists of an integrator and a flip-flop circuit, which are mutually equipped with complementary transistors

Slow speed oscilloscope with a time base in the range of 0.01 to 100 Hz, and so forth used in the Rechenmasehinentechnik, medicine, Automatisierungstecnnik, to i are shown in which even several simultaneously occurring punctures in the area of, the low frequencies.

£ 3 are a whole range of saw tooth voltage generators with low repetition bireguence. With these Sawtooth generators are most commonly an electronic one Integrator use, through deßison .Fimktionskapftsität a

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Linear voltage increase is achieved, this linear voltage in the generator by a preferably electronic switching element is controlled.

Forms in the known slow-running osailloscopes Usually this switching element is a plip-plop circuit, which can be controlled in several ways. One of these ways is to control the flip-plop circuit by a separate repetition frequency generator. This device can also be used as a triggered one Time deflection circuit work, taking the length of the flyback from the time constants on the side of the Flip-flop circuit combination is dependent.

There are also known Plip -]? Lop circuits which the beginning and the end of the discharge interval can be controlled by separate circuits and where during the change of the integration capacity the length of the return is automatically set to the shortest possible value.

But it is also possible to connect the integrator directly to the flip-KLop circuit using complementary transistors to connect. The disadvantage of this arrangement is but in the fact that the path from the control voltage to discharge the capacitance is identical to the transmission path of the sawtooth voltage to the flip-flop circuit «

In summary, it can be stated that the well-known- * ^:

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The circuits of the sawtooth voltage generators are very complicated and therefore very demanding in terms of them their adjustment and maintenance.

In contrast, the transistorized according to the invention Sawtooth voltage generator with a simple circuit arrangement which, however, is reliable in its function is, whereby this system is undemanding in terms of its setting and maintenance.

The essence of the transistorized according to the invention The sawtooth voltage generator is connected to one pole of the power source via the charging resistor and connected to the Uullpotentialklemme and with the integrator equipped with transistors through its Feeding node, which is the output for the at the same time Sawtooth voltage forms, via the separating resistor the input of the first transistor of the flip-flop circuit that the flip-flop circuit is connected to the two poles of the power source with the common Electrode across the emitter resistor and to the outputs of the two transistors via the collector resistors is connected that the output of the first transistor generating a reverse release voltage the input of the second transistor by means of the feedback resistor or the feedback resistor divider is connected that the output of the second, a discharge control voltage generating transistor is connected via the switching diode to the input of the integration amplifier and that the integration amplifier is connected to the second pole via the variable resistor connected to the power source.

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The essence of the invention is based on a, In the drawing illustrated embodiment explained in more detail. The drawing represents the circuit arrangement of the transistorizing sawtooth voltage generator according to the invention.

As can be seen from the circuit diagram, there is the integrator from one with two transistors 1 and equipped integration amplifier and a charging capacitor connected in parallel to the amplifier J. In the integration amplifier, the transistor 1 forms the impedance matching of the integrator, during the Transistor 2 introduces the actual amplifier.

The integrator is connected to poles 5 and 6 of the power source by means of the charging resistor 4 and the level resistor 17 connected, the emitter of the transistor 2 being coupled to the zero potential terminal.

The output of the transistor 2 is connected via the Speiee node 7 and also via the isolating resistor 8 to the input of the transistor 9 of the flip-plop circuit consisting of transistors 9 and 10.

The flip-flop circuit (the transistors 9 and 10) is connected with its common electrode via the emitter resistor 11 to the pole 5 and further with the outputs of the two transistors 9 and 10 via the collector resistors 12 and 13 to the pole 6 of the power source .

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Furthermore, the output of the first transistor 9 of the flip-flop circuit, which is the flyback cancellation voltage carries, to the input of the second transistor 10 by means the feedback resistor 14 or the feedback resistor divider 14.15 connected, with this input of the second transistor 10 also having a External synchronization voltage can be applied.

The output of the second transistor 10 of the flip-flop circuit, who carries the control voltage for discharging the integrator, is via the switching diode 16 to the Input of the integration amplifier equipped with transistors 1 and 2 is connected.

The function of the transistorized according to the invention The sawtooth voltage generator is as follows: When the voltage from the power source is applied, appears on the basis of the first transistor 1 of the integration amplifier a low voltage with respect to earth, the is equal to a fraction of a volt and which is always insignificant during the entire working cycle Value is maintained

The capacitor 3 of the integrator is now charged via the charging resistor 4, the one with the transistors Integration amplifiers equipped with 1 and 2 cause the voltage on capacitor 3 to be linear increases and also controls the charging speed together with the variable resistor 17. During this

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Work process wix'd the first Trans is tor 9 the Flip-flop circuit conductive while the second transistor 10 this circuit is blocked.

The charging of the capacitor © 3 lasts until the voltage across resistor 4 falls below a certain "Vfert relative to the voltage at the common emitter of transistors 9 and 10 of the flip-plop circuit drops.

From this moment on, the transistor 9 is blocked, since its collector voltage becomes more negative and also is applied via the feedback resistor divider 14 and 15 to the input of the transistor 10, whereby as a result of the positive feedback on the 7 / resistance 11 the ϊΊΐρ-ΪΙορ circuit is overturned in the position in which the transistor 9 is blocked and the transistor 10 operates in the saturation state.

Little remains in saturated transistor 10 Voltage, with the DC voltage remaining at the collector and emitter in relation to the resistances 11 and 13 is held. These resistors are dimensioned so that this voltage is slightly positive will.

As a result, the switching diode 16 is opened and current to the bases of the two transistors 1 and 2 of the Integration amplifier, whereby the tran-

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BATH ORIGINAL

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sistors 1 and 2 brought into saturation will.

In this state, such a low impedance of the integration amplifier is connected to the discharge capacitor 3 that the capacitor 3 is thereby rapidly discharged. This work stage represents the return of the sawtooth voltage .

However, since the voltage of the charging capacitor 3 drops to the level of the sawtooth voltage start, that is, because the voltage ratios are significantly changed with regard to the emitter voltage of the transistors 9 and 10 of the flip-flop circuit, the transistor 9 is opened and as a result of the change in the feedback the flip-flop configuration is overturned in the state in which the transistor 9 is conductive and the transistor 10 is blocked.

The voltage applied to the output of the transistor 10 is negative, the switching diode 16 is blocked and the stage of the effective sawtooth voltage begins again.

In summary , it can be said that good results were achieved in operation with the transistorized sawtooth voltage generator according to the invention. Despite its simple construction, this allows

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Generator not only good lui ^ tionBparaineter, but also a suitable separation of the puncture stresses (Sawtooth, control and extinguishing voltage) nelaen material savings to achieve.

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Claims (1)

Claim: Sawtooth voltage generator, especially designed for slow-running oezilloscopes, consisting of a Integrator and a flip-flop that are mutually exclusive are equipped with complementary transistors, characterized, that the via the charging resistor (4) to a pole (5) of the power source and to the bull potential terminal (0) connected and with the 'transistors (1 and 2) equipped integrator (1,2,3) through its storage node (7), which at the same time forms the output for the sawtooth voltage, via the isolating resistor (8) to the input of the first transistor (9) of the flip-KLop-Sehaltung (9 and 10) is connected that the flip-flop Sehaltung (9 and 10) to the two Poles (5 and 6) of the power source with the common electrode via the emitter resistor (11) and with is connected to the outputs of the two transistors (9 and 10) via the collector resistors (12 and 13), that the output of the first, a flyback cancellation voltage carrying transistor (9) to the input of the second transistor (10) by means of the feedback resistor (H) or the feedback resistor divider (14 and 15) is connected that the output of the second, a discharge control voltage carrying transistor (10) via the switching diode (16) to the input of the integration amplifier (1 and 2) is connected and that the integration amplifier is connected to the second pole (6) of the current source via the variable resistor (17) connected. 909845/1619 Blank page