DE396949C - Amplifier arrangement with cascade connection of three-electrode tubes - Google Patents

Description

Amplifier arrangement with cascade connection of three-electrode tubes. The cascade amplifiers used in wireless telegraphy of three-electrode tubes have stronger tubes as connecting links between the United either transformers with or without an iron core, depending on the or high-frequency amplification or current linkages of ohmic resistances in connection with capacitors or inductive '' resistors also in Connection with capacitors. Consume these different types of concatenation a certain amount of energy of the current passing through, known as hysteresis loss or is wasted as Joule heat or as Foucault trenia. These links so only pass on part of the received current to the lamps. With interposition of transformers with iron core occurs due to the non-linear course the magnetization curve, especially with higher currents, a distortion of the current, so that no faithful reproduction of the primarily supplied current curve is possible. At higher currents also occurs frequently as a result of feedback phenomena a hum that is sometimes very annoying and annoying.

These disadvantages are eliminated according to the invention in that the cascade telephone relays are used as connecting elements between two successive amplifiers, similar to the relays used in finite wire telephony. These relays consist in a known manner from a very sensitive telephone, its Resistance according to (lein circuit of which it branched off, Eeniessen is and a lIikru- I> 11011, (read directly or indirectly with this Telephone is down. That microphone lies finite the primary winding of a trans- forinators in the circuit of a battery of Elements or --Xkktnnillators. The @ ekuii- The winding of this transformer is finite (a grid of the following @ `erstürkerrüln-c tied together. The advantage of the intermediate connection of a telephone relay between the ; use stronger tubes opposite the l, isher deten @@ erbinrlungsclementen also exists in it, <let (read leash rope st as Amplifier works and such a significant one stronger sound effect is achieved than with an ordinary catalytic converter; arranged in cascade connection he is the case. Furthermore, inan _ as a telephone can be used up to now used finite wire in the case of the Teieplionie Facilities l: use that average a resistance from So bi; 200 0111111 lia; en. This is particularly advantageous for 1 speak, since in this case the telephones traversed by much rigged currents be and so (do not put the core out of lamellas needs to be composed. In the drawing, schematic diagrams form the arrangement of the amplifier a receiving station. In Al - 1). i are L 'L: `1.' the \ -stronger- ri '# liren finitely three electrodes of the three stages of the amplifier. B is the main battery and h ; lie heating battery. In (t is (read Telephone, (read the impulses from low voltage voltage of the input circuit c. in Lc marks the llenihran (nasty Teiephons, which at the same time represent the microphone represents. Instead of a single 1 \ lenil: ran could also arrange two membranes in one, that are connected to each other. P is the battery that runs the microphone is fed, which is also easily finite (leg Heating battery h can be combined. I ' is a Transformer, the primary coil of which is in circle of the microphone with , while the Secondary, sound coil with the following amplifier tube L 'is connected. The anode of this Amplifier tube L 'is finitely your next one Telephotirelais fit 'connected, whose micro- plionnieniiran in 'in the next stream circuit fed by battery P 'confused], is switched and on the transformer 1 = works. The same arrangement% vi, # - derliolt down to the last circuit of the micro- phons 1n ', which by means of a coil i on the Telephone R of low resistance works. This telephone came on, hurriedly be a speaker or a similar arrangement. The mode of action is as follows. The impulses hit (read telephone approx first microphone relay and set the llikr @ - @ - phoilmeinbran in in Sch. ~ vibration. These Vibrations call in the primary coil l ' rising and falling of the stream. The primary coil II induces the secondary coil and the potential fluctuations are immediately reflected in the The grid is on the filament of the tube L ' lived and call in Ier tube L 'a relay effect through which the anode current of this RI ": ln" e I_e is influenced. A ver stronger stroin then goes through the second Telephone u ', and this is reflected in the same type down to the last amplifier tube. When leaving the Rülire L 3, the Anode current enttve (lcr directly in a tele- plion or, as shown, from a fourth Microphone relay a "added that the Teephon R excited. It goes without saying that the scheme (read is shown in Fig.t, just an example there, un.l dal3 nian still other circuits des llikro1> lioiirelais can specify. So can inan very good a llil; roplion relay without trans- use the formator and, as shown in Fig. shows immediately the sti-oinstößc of the 'microphone in let it act on the grid of each tube. Likewise, inan the transformer can through replace a suitable resistor. 1 egg- for example, for an Ohnischen @Zi (Ierstan 1 (A1> 1 ) .3) _ or an inductive resistor v, w (Fig. .I).

Claims (1)

PATENT T-AXIS LANGUAGE: i. Amplifier arrangement with Kaska (len- circuit of three-wire ztrodenrö1ireii, there- characterized by that as @ -er @ ün- members between two iitife.inall.ler- following amplifier tubes telephone relays are arranged. 2. Amplifier classification according to: \ n- claim i, characterized in that the microphone contacts of the telephone relays neither ini primary circle from secondary on; las Grid laid transformers (AM). i -l or directly in the grid line with a preceding strobe: n (Iuelle (.-1a '#. 2), if necessary under parallel circuit by Ohinschn (Fig. 3) oller inductive (Fig..L) resistors, are switched.