BE517497A - - Google Patents

Description

       

  IMPROVEMENTS TO NEUTRODYNIC AMPLIFIERS.

  
The present invention relates to improvements made to the amplifiers neutrodynés � more particularly to balanced amplifiers with tuned driving and sampling circuits.

  
In such amplifiers.!, In fact the neutralization must be operated according to a usual arrangement per se by means of capacitors connecting the plate of one lamp to the control grid of the other, in two reciprocal cross connections * and it is of course advantageous to provide these two adjustable capacitors. However, the tuned driving and sampling circuits. By grids and plates respectively, also incorporate capacitors, advantageously adjustable, the capacitor of the tuned drive circuit is in shunt between the control gates and the capacitor of the tuned circuit of the sample is shunted between the plates. These four capacitors constitute, from the electrical point of view, a closed ring and, taken two by two, they must be considered as having a common armature.

  
The object of the invention is to take advantage of this property to simplify the production of all of these four variable capacitors by grouping the common plates two by two, and more particularly by providing a unitary assembly of these four capacitors which ensures all flexibility desirable in setting their values.

  
 <EMI ID = 1.1>

  
mounted side by side so as to define two by two, by cooperation of their adjacent edges * but not in contact with four fixed reinforcements which, by the provision of four individually adjustable reinforcements, then allow the adjustment of the four capacities necessary for the tuning and the neutralization of the circuit. Indeed, the four individual reinforcements

  
 <EMI ID = 2.1> look at the first to each define a portion of adjustable capacity by its cooperation with a pair of fixed reinforcements, the said adjustment being able to be carried out by a displacement of that considered of the adjustable reinforcements by translation according to one and (or) the other of the two directions, one orthogonal to the plane of the interval between fixed reinforcements and the other axial to this interval.

  
The invention will be explained in relation to the accompanying figures, which schematize:
Fig. 1, an illustrative high amplifier stage diagram <EMI ID = 3.1> Fig. 2, the electric ring diagram formed by the four capacitors of the amplifier stage of FIG. 1; Fig. 3, the diagram, seen in plan, of an example of a first embodiment of the invention; <EMI ID = 4.1> of a second embodiment of the invention.

  
It is recalled in FIG. 1, the diagram of a symmetrical amplifier for high and very high frequency, constituted for example by

  
 <EMI ID = 5.1>

  
g

  
inductance, in symmetrical locations with respect to its midpoint to which the resistance R is connected, arrive the conductors of

  
attack F; the plates of the triode elements (which could also be

  
 <EMI ID = 6.1>

  
p forming with the capacitor P the tuned plate circuit of the stage; the high voltage anode supply can be effected through the

  
 <EMI ID = 7.1>

  
inductance L; the conductors for sampling the amplified signal have been indicated at F.

  
The neutralization of such an amplifier must be carried out

  
 <EMI ID = 8.1>

  
each connected between the plate of a tube element and the grid

  
of the other. The sizing of these capacities is not

  
to be retained here, not falling within the scope of the invention; it should only be noted that in practice, the values of the neutrodyne capacitors and of the plate tuning and control gate correction circuits are of the same order of magnitude.

  
If we consider only the four capacities of the assembly of FIG. 1 in their own interconnection, we see directly, Fig.

  
2. that these four capacities have two by two a common framework.

  
It is planned to realize individually these four capacities G - N - P - N and this, in addition, so that an individual adjustment can be made on any one of them without ne-

  
 <EMI ID = 9.1>

  
one not reacting directly to vary the overall setting of the four capacities.

  
As shown in Figs. 3 and 5, we establish at this

  
 <EMI ID = 10.1>

  
required, projection, vaporization, etc ... These four frames are arranged <EMI ID = 11.1>

  
between their opposite edges. Four fixed reinforcements are thus obtained which will each constitute a part of the adjustable capacity (each fixed capacity being determined by the length and the spacing of the adjacent edges of the reinforcements).

  
To each interval thus defining a portion of residual fixed capacitance will now be added an additional reinforcement-

  
 <EMI ID = 12.1>

  
is in series with the two variable capacities existing between an adjustable frame and the two fixed frames which it partially covers. The mobile frame 10 cooperates with the fixed frames 1 and 2, the frame

  
 <EMI ID = 13.1>

  
Each of the movable armatures is preferably established to have an electrical symmetry with respect to the axis of the interval between fixed armatures with which it is associated, this in particular for the capacitors P and G.

  
The variation of this double adjustable capacity can be done in two ways. at least, by translation parallel to this axis, on the one hand as indicated in FIG. 3, and on the other hand, by modifying the spacing between the movable frame and the pair of fixed frames with which it cooperates.

  
By way of illustration, of assembly in the latter case, there is shown, FIG.

  
4 and 5, each adjustable frame mounted on a screw 15, the tightening or loosening of which makes it possible to vary the distance between it and the pair of associated fixed frames.

  
 <EMI ID = 14.1>

  
adjustment without departing from the scope of the invention.

  
 <EMI ID = 15.1>

  
its control gates and a tuning circuit between its anodes, and having cross-connected neutrodyne circuits between its control gates and its anodes, the set of four capacitors of these circuits constituting a closed ring characterized in that the said capacitive assembly is produced in a unitary assembly comprising four plates fixed side by side on a common dielectric support to defy

  
 <EMI ID = 16.1>

  
longitudinal axes arranged in a cross, and four independent reinforcements mounted opposite these intervals, each of symmetrical configuration

  
 <EMI ID = 17.1>


    

Claims (1)

2. A symmetrical amplifier according to claim 1, and wherein each independent armature is adjustable by translation in its plane in a direction parallel to the longitudinal axis of the gap with which it cooperates. 3. A balanced amplifier according to claim 1, and in which each independent frame is adjustable by translation in a direction orthogonal to the plane of the fixed frames. <EMI ID = 18.1> in which each independent frame consists of a circular plate mounted on a screw allowing the adjustment of its distance in plan from the fixed frames. <EMI ID = 19.1> wherein a common dielectric plate is inserted between the fixed armatures and each and every one of the independent armatures.