DE1283307B - Antenna amplifier - Google Patents

Description

Antenna amplifier The invention relates to an antenna amplifier, where the negative resistance is an amplifier element in an oscillator circuit to an antenna is turned on. The fundamental advantage of such antennae stronger with negative resistance in two-pole compared to the known antenna amplifiers in four-pole connection consists in raising the tennenstrom and thus in an enlargement of the Antenna absorption area, so that much better Signal-to-noise ratios than with the four-pole circuits can be targeted. The bandwidth of the antenna is caused by the negative resistance as a result of a Reduced increase in circular quality. Through the to be demanded for the relevant transmission channel The minimum bandwidth is the achievable profit borders. From the theory presented later, however, it follows that that these limits z. B. in TV band IV over 29 db and over 39 db in the VHF range. the Significance of this increase in antenna gain by the antenna amplifier according to the invention nian recognizes in particular by the fact that a additional gain of 20 db most borderline fcing problems would arise. Some time ago there was already an antenna amplifier with a "tunnel diode" as negative resistance became known, but as a result of not being able to stability difficulties so far no series could find idle application. The antenna amplifier according to the invention is there- characterized in that the operating point of the Amplifier element in a defined proximity tion to the vibrating insert is set stable that a known one. very strong negative feedback with a resistance of high value into the emitter supply line or cathode supply line or source supply line is provided. Further stabilization measures exist that the feedback of the amplifier elenient with the help of a high-frequency voltage divider so adjusts. that the working point of the reinforcement element in an area is relative low gain change is located. A phase-pure feedback and thus a symmetrical to the mine frequency of the receiving channel Reinforcement is achieved thereby. that the tax eicktrode of the veritary kereleinentes parallel lying Leak resistance of the cause of the feedback - the sp; innungstcilers a rin comparison to the input resistance of the connected in parallel Control electrode very low resistance value Capacitance diodes can be used as tuning elements. A combined control of the tuning elements and the operating point of the amplifier element in such a way that uniform feedback is ensured within the entire tuning range is particularly advantageous.

Another very effective measure to stabilize the antenna circuit is that between the antenna and the antenna amplifier with negative Resistance as a two-pole on the one hand and the receiver input on the other hand another Antenna amplifier is introduced as a quadrupole of known type. Here is this one second antenna amplifier in one with respect to the wavelength of the receiving channel small distance or whole multiples of half the wavelength to the antenna to connect. so that a defined terminating resistance for the antenna circuit formed the input of this four-pole built second antenna amplifier is.

The output of this second antenna amplifier is in the usual way reflection-free to the wave impedance of the high-frequency cable leading to the receiver input customized. Due to the separating effect of this second amplifier, the influences of the high-frequency cable and the receiving circuit input resistance on the antenna circuit avoided, so that any harmless to the output of this second amplifier Receivers can be connected without having to adjust the feedback circuit of the first antenna amplifier is required.

These stable properties are the prerequisite for a serial Application of the new antenna amplifier. The formation of the transformation elements to adapt the amplifier element in the antenna amplifier with negative resistance can advantageously take place in a manner known per se as a pot circle.

To protect the amplifier element from thunderstorm voltages one can Provide customary high-pass circuits.

On the basis of FIG. 1 and 2 are embodiments of the invention Antenna amplifier with negative resistance in the event that the amplifier element consists of a transistor, described.

The transistor 1 forms .with the primary winding of the transformer 2 as inductance and the tuning capacitance 3 as well as the capacitive voltage divider an oscillator circuit that is fed back via this divider from the capacitors 4 and 5, which operated below its vibration level with a defined degree of feedback will. Through the high-ohm emitter resistors 6 and 7 and through dimensioning of the voltage divider 4 and 5, the high stability requirements are according to the invention Fulfills. The oscillator circuit is at resonance for the carrier frequency of the receiving channel tuned so that the entire oscillator circuit is attached to the secondary winding of transformer 2 behaves like a real negative resistance with the value -RT. This negative resistance is shown in FIG. 1 in series with radiation resistance RS and loss resistance RF of the working in the usual four-pole circuit and through a second antenna amplifier 9 stabilized by a high-resistance emitter resistor switched. Then the equivalent circuit diagram on which the theory below is based applies according to FIG. 3. A half-wave dipole is assumed as the antenna 8; Coupling in its current maximum as a series resonance circuit for the carrier frequency of the receiving channel can be understood.

Instead of this single dipole, any other antennas, such as. B. Multiple dipole antennas, dipoles with reflector mirror in both half-wave and full-wave versions or as short dipoles with corresponding additional voting elements then required.

The in F i g. 2 shown differs from the circuit Circuit in FIG. 1 in that the negative resistance -RT to the input resistance RF is parallel. The transmission ratio of the transformer 2 is here in general on the transmission ratio in FIG. 1 different. Both. Leave circuit variants dimension themselves for the same profit.

According to the invention, the second antenna amplifier 9 separates the antenna circuit consisting of RS + Rv + RF - RT from the high-frequency cable and receiver input, so that the amplifier can be perfectly matched with a positive resistance to the characteristic impedance of the high-frequency cable -12 going to the receiver 11 . Possible mismatches on the do not have any repercussions on the antenna circuit and, in particular, cannot influence the stability of this antenna circuit.

In relation to the theory of the antenna amplifier with negative resistance, the following is explained: It is assumed that there is resonance for the reception of the carrier frequency f ' With the radiation resistance RS, the antenna loss resistance R,., The input resistance R ,; of the connected receiver and the negative resistance -RT of the antenna amplifier according to the invention, transformed in as a series resistance, then results in the figure shown in FIG. 3 equivalent circuit shown. Below the vibration insert, ie for IRTI <RS + RV + R ,,, the efficiency is If one denotes the gain G of this antenna amplifier as the ratio of the efficiency (RT) with any negative resistance -RT to the efficiency il (RT) with RT = 0, then it follows: The resulting curve shape is shown in FIG. 4 shown.

For one the length 2 H and the rod radius ro result in: a) the kilometric: inductance L: b) the kilometric capacity C: c) the wave resistance Z: d) the charge conductivity EI: c :) the equivalent capacity Cw. . The circular quality Q of the antenna is then A conversion of this formula for the circular quality Q by introducing the gain G and the antenna quality Q "without antenna amplifier (RT = 0l results For one -Dipole with reflector can be used for Rs + R, = 60 12. RE is also 60 12.

Then it will be Hei RT = 0, ie without transistor, becomes For 1, = 480 MHz,? H = 0.9 62 = 56 cm r <, = 0.5 cm, is Q ", = 0.5 - In 11 2 = 0.5 4.72 = 2.36.

For, / z = 90 MHz. 2 H = 0.95 - 333 = 317 cm ro == 0.6 cm, is Q112 = 0., 5 - In 528 = 0.5 - 6.27 = 3, 1 3.

For 480 MHz, Baj% dwidth .J; = 7 MHz. results in a required l; rice goods from Then comes the maximum profit For ./z == 90 MHz,. (, - = 0.3 MHz, the required Ki-ice quality ° full results Then it follows as m; xiinrthr profit These gains are theoretically possible with optimal dimensioning of the negative transistor resistance -R (T) or -R (T). the end will The absorption area F ″ as the effective area of the antenna with the height H, the wave impedance ZO (= 377S2), the resistances RS, RV, RE, -RT when the receiver is connected results in From this formula, in comparison to the formula for the circular quality Q, it follows that both formulas have the gain G as a factor. This means that the absorption area, the gain G and the circular quality are proportional to one another, particularly with regard to the negative transistor resistance -RT. By -R-1- the absorption area F ″ as the effective area of the antenna is decisively increased.

The physical processes involved in this enlargement of the absorption surface as an effective area can be understood if one considers that due to the negative resistance of the antenna amplifier according to the invention, the antenna current at constant, through the product of the transmitter field strength and the effective antenna height of specified, impressed antenna voltage is increased according to the gain. This will the opposing field built up by the receiving antenna in its environment accordingly enlarged and thus weakened the transmitter field.

The antenna amplifier according to the invention with negative resistance provides the additional power required for this opposing field. This coupling of the Amplifier with d @: rn antenna field is the prerequisite for real gain compared to known antenna amplifiers.

While so far (RT = 0) only through multiple dipoles or dipoles with mirror reflectors an enlargement of the absorption area is possible and thus a greater profit can be achieved with the help of the antenna amplifier acting as a negative resistance on the antenna according to the invention by electrical measures as the active surface, the absorption surface the antennas consisting of a single field or any multiple dipole arrangements can also be enlarged. The multiple dipole arrangements or the dipoles with mirror reflectors chooses one here as broadband as possible, so that the phase response of the antenna resistance runs sufficiently flat within the transmission channel and the circular quality Qo without amplifier (RT = 0) low, i.e. H. the maximum through the antenna amplifier according to the invention achievable profit as large as possible.

The gains G that can be achieved in practice depend primarily on the stability of the feedback circuit and are also due to the minimum bandwidth limited.

Claims (7)

Claims: 1. Antenna amplifier, in which as a negative resistance an amplifier element connected to an antenna in an oscillator circuit is; characterized in that the operating point of the amplifier element is thereby in defined. Approach to the oscillating insert is set stable that a very strong negative feedback known per se with a resistance of high value in the emitter lead or cathode lead or source lead is provided. 2. Amplifier according to claim 1, characterized in that the feedback of the ' Amplifier element adjusted in this way with the help of a high frequency voltage divider is that the operating point of the amplifier element is relatively lower in one area Gain change is located. 3. Amplifier according to claim 1 or 2, characterized in that that the leakage resistance lying parallel to the control electrode of the amplifier element of the voltage divider causing the feedback has a compared to the input resistance the control electrode has a very low resistance value. 4. Amplifier after one of claims 1 to 3, characterized in that as remotely controllable tuning elements Capacitance diodes are used. 5. Amplifier according to one of claims 1 to 4, characterized in that the control of the tuning elements and the operating point of the amplifier element are combined so that within the entire A uniform feedback is guaranteed in the tuning range. 6. Amplifier according to one of claims 1 to 5, characterized in that between the antenna and the antenna amplifier as a two-pole on the one hand and the receiver input on the other Another antenna amplifier known as a four-pole type without feedback was introduced is. 7. Amplifier according to one of claims 1 to 6, characterized in that the transformation elements required to adapt the amplifier element to the antenna are constructed as pot circles in a manner known per se. References considered: British Patent No. 1,047,484; »AEU«, No. 11, 1961, pp.495 to 507; "Communication Technology", Issue 13, 1955. pp. 566 to 568; "Radio-Electroiiics", April 1963, pp. 100 and 101; D osse, "Der Transistor", 1959, pp. 317 to 221; "Telecommunications technical reports", supplements of the NTZ ", issue?, 1955. Pages 41 to 48.