DE1264498B - Pulse generator to generate one or two phase-shiftable pulses - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

H03k

German class: 21 al - 36/02

Number: 1264 498

File number: S 98595 VIII a / 21 al

Filing date: August 2, 1965

Opening day: March 28, 1968

The invention relates to a pulse generator to generate one or two phase-shiftable pulses, in particular for ignition control of controlled silicon rectifiers η.

The ignition of rectifiers provided with a control electrode is carried out by supplying a Impulse of a certain value and a given duration to the control electrode.

In the case of the previously known pulse generators of the type mentioned at the outset, there is a dependency between the desired phase position of the pulse and the pulse amplitude. The gain achieved with these circuit arrangements, i. H. The relationship between the mean rectified voltage of the controlled rectifier and the ignition pulse as a result, variable, which is a major disadvantage for many applications.

The invention is therefore based on the object, while avoiding this deficiency, a pulse ao to develop generator of the type mentioned, in which this undesirable dependency between the position and the amplitude of the pulse does not exist, so that with the circuit arrangement a constant Reinforcement is achieved.

According to the invention, this object is achieved in that a sinusoidal voltage source has a Phase shifter circuit with fixed phase shift feeds whose cosine output voltage is a with a transistor equipped threshold value circuit for generating the phase-shifted pulses is supplied, which is also supplied with an adjustable control voltage and a DC polarization voltage that a circuit is also connected which has a first transistor, which the sinusoidal Voltage is supplied and its output voltage taken from the collector of the base a second transistor is supplied, which is parallel to the threshold value circuit with adjustable threshold values lies, and that the latter has at least one amplifier at least one with the primary winding a saturation transformer connected monostable circuit element controls.

Details of the invention can be found in the following description of two illustrated in the drawing Embodiments emerge. It shows

Fig. 1 is a circuit diagram of the invention Arrangement,

F i g. 2 is a diagram of the sinusoidal synchronization voltage (dashed lines) and the cosine-shaped reference voltage (fully drawn), Fig. 3a to 3c diagrams of voltages Pulse generator to generate one or two phase-shiftable pulses

Applicant:

Societe de Constructions filectromecamques
Jeumont-Schneider, Paris

Representative:

Dipl.-Ing. R. Beetz

and Dipl.-Ing. K. Lamprecht, patent attorneys,

8000 Munich 22, Steinsdorfstr. 10

Named as inventor:

Robert Chauprade, Puteaux, Seine (France)

Claimed priority:

France of August 21, 1964 (985 815)

within the circuit at different values of the phase shift of the existing signals,

FIGS. 3d to 3i are diagrams of the various Points of the circuit according to FIG. 1 occurring in the phase shifts of FIGS. 3a to 3c Impulses,

4 shows a circuit diagram of a second exemplary embodiment the invention.

A sinusoidal synchronization voltage fed to the terminals 4 feeds a transformer TJi ₁ , from the secondary windings of which one supplies a phase shifter circuit formed by a resistor 1 and a capacitor 2, which supplies a fixed phase shift. The voltage between one terminal of this capacitor 2 and the center tap of the transformer TR ₁ connected to a terminal 6 is fed via a resistor 3 to the base of an npn transistor T ₂ , which forms a threshold value circuit with adjustable threshold values. In addition to this first voltage, the base of transistor T ₂ is supplied with a DC polarization voltage applied between terminals 5 and 6 and adjustable by a potentiometer 7, as well as a DC control voltage applied between terminals 8 and 9 and conducted via a resistor 10. The base of the transistor T ₂ is also connected to the collector of a _{transistor T 5} via a resistor 11 and a capacitor 12. The emitter of the tran-

809 520/597

3 4

sistor T ₂ is via a resistor 13 to the terminal Fig, 3d illustrates the emitter-collector

men 6 and 9 connected. Voltage of the transistor T ₂ in the absence of the tran-

Another circuit is made by the npn transistor T ₃ . Fig. 3e shows the emitter-collector-span

sistors T ₁ and T ₃ formed. The from a second voltage of the transistor T ₃ in the absence of the transistor T ₂ .

Secondary winding 14 of the transformer TR ₁ removed 5 Fig. 3f illustrates the emitter-collector-span

Taken voltage is across a resistor 15 voltage of the transistors! T ₂ and T ₃ , which the transistor ^

and a diode 16 between the base and emitter of the controls. The one from transformer TR _{2 is dashed}

Transistor T ₁ placed; the emitter is also with the originating, occurs at the base of the transistor T ₅

Terminal 9 and the collector are shown on the one hand via a tending pulse.

Resistor 17 with terminal 5 and on the other hand io Fig. 3g shows the voltage at the collector of the via a resistor 18 with the base of the Tran transistor T ₅ . Fig. 3h shows the secondary voltage sistor T ₃ connected. The emitter of the transistor T _{3 of} the transformer TR ₃ and Fig. 3i the output is connected to the terminal 6, which is connected to the base pulse of the circuit arrangement according to the invention, the transistor T ₃ via a resistor 19. The collector of transistor T ₃ is (g F i. 2) with the 15-shaped synchronization voltage collector is connected in the transistor T ₂ and fixed by the one hand, formed by the resistor 1 and the condenser 2 via a resistor 20 to the terminal 5 phase shifter circuit (with Phase-connected and, on the other hand, connected to a current amplifier converted to the cosine-shaped reference signal voltage formed _{by the curve 37 (FIG. 2) th embodiment formed by a transistor T 4 in the case of the display shift).} The Kollek-20 shaped. To this cosine-shaped voltage comes the gate of the transistor I ₄ is connected to the terminal 5. The emitter of the transistor T ₁ is connected to the terminal 6 via a mene polarization voltage and the control voltage resistor 21 and added. The resulting voltage Ur reaches the threshold circuit with adjustable threshold values via a diode 22 and a resistor. 23 to a monostable circuit element M, which is formed by 25 FIGS. 3a, 3b and 3c show three different two transistors T ₅ and T ₆ . The cases of the phase shift that of the base of the tran-emitter of the transistor T ₅ is connected to the terminal 6 ver ₇ sistor T ₂ resulting voltage Ur. The voltage picked up by the terminals of the secondary emitter layer of the transistor T ₂ in the conductive winding of a transformer TR ₂ via a diode 25 30 is illustrated in bound, while the base is by a voltage, dashed lines, is polarized by the base, wäh- and a resistor 24 is removed. The primary rend is fully extended on the blocked transistor T ₂ of the transformer TR ₂ is represented by the applied reverse voltage.
Sinusoidal synchronization voltage supplied, the If there is no control signal at terminals 8 and 9,

Via a capacitor 26 and a potentiometer 27. . , _τ "",;., +, «. τ Λή + ^ Λ - ^ «. ι.,». χτ ,, ιι “™ a ^λ

so the transistor J »is conductive between JNuIl and - = -,

, ..,, -JT-. , τ hi. j τ, ·, ITi-J. the transistor J »is conductive between JNuIl and - = - is supplied. The collector of transistor T ₅ is 35 2

on the one hand via a diode 28 and a resistor 29 d. H. in the area where JTr is positive while

connected to the base of the transistor T ₆ , other- the transistor T _{2 is} blocked when Ur has its polarity

reverses side via a resistor 30 with the primary winding. In fact, the transistor T _{2 is} already blocking

a transformer TR ₃ Dk base of the transistor _{before "Le} i _tfähigke it _ssc hwelle the base

T ₆ is connected to terminal 6 40 2 ° via a resistor 31

connected directly to the emitter of the tran-emitter layer; the switching process is carried out using

The transistor T _{6 is} connected. The collector of the Tran potentiometer 7 is set to the value £. If sistor T ₆ is connected to the Trans- 2 ^{e 6 via a resistor 32}
Formator TR ₃ connected, the center tap of which a control voltage is supplied to transistor T _{2 and terminal 5 is connected.} In the secondary circuit 45 (Fig. 3d), it is conductive from 0 to a. and a diode 33 of the transformer TR ₃ is switched on 2π - cc to «, where α is the angle corresponding to the switching process. If the base of the tran-

The mode of operation of the circuit according to FIG. 1 resulting voltage Ur supplied in their sistors

be in the following on the basis of FIG. 2 and 3 a to 3 i Absolute value greater than the maximum control voltage

explained. In the diagrams of FIG. 2 and 50, there is no periodic switching of the

3 a to 3i are plotted as ordinates voltages, transistor! T ₂ more. The transistor T _z becomes his

while the time is entered in the abscissa. Functions when 0 and π are approximated by the

In FIG. 2, curve 36 represents the circuit transistors T ₃ and T ₁ removed. The emitter-base feeding synchronization AC voltage and the voltage of the transistor T ₁ is the sinusoidal curve 37 is the reference voltage that is applied to the 55 synchronization voltage. The transistor T ₁ is connected to a secondary winding of the rend of the positive half-wave from 0 to π conductive and transformer TJi ₁ connected, a fixed phase during the rest of the period, ie from π to 2n shift supplying phase shifter circuit. locked. Conversely, the transistor T _{3 is} during

The Fig. 3d to 3 i show the forms of the signals, the positive half-wave blocked from 0 to π and select

which are conductive at various points in the circuit in dea 60 rend of the remaining part of the period (cf.

three assumed cases (Fig, 3a to 3c) under Fig. 3e), Since the transistor T _{3 is} parallel to the tran-

different phase shift of the control pulse sistor T _{2 is} switched, it closes it from % to 2? i

occur in relation to the synchronization voltage. short. The transistor T ₄ zageleitte resulting

F i g. 3 a shows the resulting signal that has between emitter-collector voltage therefore the in

Base and emitter of the transistor T ₂ in a phase 65 Fig. 3f shown shape. The front flank of this

shift of 45 °. Fig. 3b shows the pulse determines the position of the ignition pulse. These

Case of a phase shift of 90 ° and Fig. 3 c voltage is fed to a circuit which the

the case of a phase shift of 135 °. Impulse shape improved. After reinforcement by the

Transistor T ₄ , this pulse arrives at the monostable multivibrator formed by transistors T ₅ and T _6. At the value α, the positive edge of the _{pulse supplied by transistor T 4 is} fed to the base of transistor T ₅ , which thereby becomes conductive and blocks transistor T _6.

Thereupon, a positive voltage is applied to the terminals of the primary winding of the saturation transformer TR ₃ , so that this transformer delivers a positive pulse (cf. Fig. 3h). At π , the signal supplied by the transistor T _{1 becomes zero.} The transistor T ₅ is blocked and the transistor T _{6 is} conductive. A negative voltage is thus applied to the primary winding of the transformer TR ₃ , so that a negative pulse is produced at the terminals of the secondary winding of this transformer (cf. FIG. 3h). The diode 33 suppresses this negative pulse arising at π.

The resistors 30 and 32 limit the collector currents of the transistors T ₅ and T ₆ during the saturation state of the transformer TR ₃ .

The device according to the invention provides an alternating voltage final pulse, for example is required for the operation of a rectifier group as an inverter and by a marking circle is produced.

The explained circuit arrangement according to the invention generates an ignition pulse per period. Man can now refine this circuit in such a way that two pulses are generated per period. to for this purpose, two balanced channels are provided, each of which has the same circuit elements as the arrangement described has, with the exception of the one arranged in front of the saturation transformer monostable element that is replaced by a bistable circuit element.

F i g. 4 shows a variant of this type. The same circuit elements are found here as in FIG. 1, with the exception of the monostable multivibrator M, which is replaced by a bistable multivibrator B. The latter contains two transistors T ₁ , T ₇ ', the bases of which are connected on the one hand to the emitters of the transistors T ₄ and T ₄ ' and on the other hand via diodes 25, 25 'and resistors 36, 36' to the secondary winding of the transformer TR ₂ . The emitters of the transistors T ₁ , T ₁ are connected to one another and connected to their bases via diodes 37, 37 '. Furthermore, two diodes 38 are provided. The collector of transistor T ₁ 'is connected via a resistor 39 to the base of transistor T ₁ and the collector of the transistor T ₁ via a resistor 39 to the base of the transistor T. ₁ The resistors 34, 34 'fix the potential of the bases of the transistors T ₁ , T ₁ ' as long as the diodes 16, 16 'are not conducting. The diodes 37, 37 'protect the base-emitter layer of the transistors T ₁ , T ₁ , while the diodes 38 give the trigger stage B better stability.

Claims (1)

Claim: Pulse generator for generating one or two phase-shiftable pulses, in particular for ignition control of controlled silicon rectifiers, characterized in that a sinusoidal voltage source (4) feeds a phase shifter circuit (1, 2) with a fixed phase shift, the cosinusoidal output voltage (37) of which one with a transistor (T ₈ ) equipped threshold value circuit for generating the phase-shifted pulses is fed, to which an adjustable control voltage (8, 9) and a polarization DC voltage (5, 6) are also fed, that a circuit is also connected which has a first transistor (T ₁ ) to which the sinusoidal voltage is fed and whose output voltage taken from the collector is fed to the base of a second transistor (T ₃ ) which is parallel to the threshold circuit with adjustable threshold values, and that the latter has at least one amplifier (! T ₄ ) at least one with the primary sci Cloning of a saturation transformer connected monostable circuit element (T ₅ , T ₆ ) controls. For this purpose 2 sheets of drawings 809 520/597 3.68 © Bundesdruckerei Berlin