US2122401A

US2122401A - Frequency changing system

Info

Publication number: US2122401A
Application number: US40545A
Authority: US
Inventors: Edwin H Armstrong
Original assignee: Individual
Current assignee: Individual
Priority date: 1935-09-14
Filing date: 1935-09-14
Publication date: 1938-07-05
Anticipated expiration: 1955-07-05

Description

y 1938. E. H. ARMSTRONG 2,122,401

FREQUENCY CHANGING SYSTEM Filed Sept. 14, 1935 Cur/"em Amplifier L/mifer 6 Amplifier 4 2 3 4 3g #7 a 9 Osc/l/afor Amplifier l2 l9 Amplifier 2 l0 g 2/ 22 23 20 INVENTOR. Edwin H. Armsfronq.

ATTORNEYS;

Patented July 5, 1938 UNITED STATES- PATENT OFFICE 3 Claim.

It is of great value where slight changes in fre- 5 quency are required to which the heterodyne method is not well adapted.

The general method of applying the principle of the invention is illustrated by the diagram of Fig. 1. A more desirable arrangement for pracm tical operation is illustrated in the arrangement of Fig. 2.

Referring now to Fig. 1, I represents the input to the system for supplying the current whose frequency is to be changed. 2 represents an ampli- 5 fler for this current and 4 a current limiter. 5

represents an oscillator coupled to the input of the current limiter by the transformer 3. The

output of the current limiter is coupled to a tuned circuit 6-4 which is coupled to a device 8 which 21) may be either an amplifier or a detector as desired. The output circuit is represented by 9.

The operation of the system is as follows. The

strength of the currents applied to the current limiter 4 by the oscillator 5 is adjusted to be :5 sufliciently strong to saturate the current limiter.

The frequency of the oscillator is set according to the formula F =2F F, where F is the incoming frequency, F is the local frequency and F linear so long as the amplitude of the incoming frequency is small compared to the amplitude of the local oscillator.

The principle of operation is as follows. Since the current limiter is saturated and since the incoming current is small with respect to the local oscillator current, the combination of the two currents in the current limiter can produce no change in amplitude of the output current of the current limiter. It does, however, produce by as what we may call cross modulation a shift in phase of the output current of the current limiter which occurs at a rate depending on the difference in frequency between the incoming and the local currents. In effect, the combination of the two currents of constant frequency produces in the output circuit of the current limiter a phasemodulated current whose rate of phase modulation is the difference of the two frequencies; hence there appears in the output circuit of the current limiter a series of frequencies, three of which are of the first magnitude. One is the input frequency, the other is the local frequency and a third is an image frequency which lies on the opposite side of the local frequency by an amount equal to the difference between the in- 5 coming and local frequencies. This image fre quency may be made anything that is desired by properly selecting the local frequency.

In Fig. 2 a balanced current limiter system is employed that eliminates the local oscillation 10 from the output of the current limiters, which has various practical advantages when the frequency change desired is very slight. In this arrangement' l0 represents the input or signalling current, ii an amplifier for that current, l2 a transformer for applying the signal to the input of the current limiters in push-pull, l3 a transformer for applying the oscillator current to the input of the limiters in push-push. l5l6 represent the two current limiters and ll-l8 the primaries of the transformers which couple differentially with the secondaries Ill-20. 2| is a condenser for tuning the secondary circuit to the frequency which it is desired to receive and 22 is an amplifying or detecting system as is desired. The opera- 25 tion of the system is the same as previously described for Fig. 1 except that on account of the balanced current limiting system l5, IS the only currents of importance which appear in the output'of the current limiter are the original incoming frequency and the image frequency. The frequency of the local oscillator is eliminated.

I claim:

1. The method of changing the frequency of an alternating current, which consists in providing a second alternating current of greater amplitude than the first and having a frequency which is the mean value between the frequency of the first-mentioned current and the desired frequency, simultaneously combining said currents and limiting the amplitudes thereof, and selecting the desired frequency from the current resulting from such simultaneous combining and limiting.

2. In combination, a plurality of sources of current differing in frequency, one of said sources being greater in amplitude than the other, a current limiter, means for impressing currents from said sources on the input side of said current limiter, and means connected to the output side of said current limiter for selecting therefrom current of a frequency equal to the algebraic sum of the frequency of the current of greater amphtude and the difference between its frequency 5 and the frequency oi! the current of lesser amp1itudc.

3. In combination, a. plurality oi sources of current diner-in: in frequency, one of said sources being greater in amplitude than the other. a balanced current limiter, means for supplying current from the lesser source cumulatively to said limiter and for supplying current from said greater source differentially thereto and means connected to the output side of said limiter tor selecting therefrom current 01 a frequency equal to the algebraic sum of the frequency of the greater current and the diflerence between its ire- 5 quency and the frequency of the lesser current.

EDWIN H. ARMSTRONG.