DE882427C - Power control in modulated transmitters - Google Patents

Description

Power control in modulated transmitters With power amplifiers, in particular with those that are used in high-frequency transmitters, it is known a power control by regulating the DC grid voltage of one or more Make amplifier tubes. This, -, energy regulation method, however, presupposes that the high-frequency input voltage fed to the amplifier input is constant. If this condition is not met, the control arrangement cannot be calibrated. since the output power does not only depend on the magnitude of the DC grid voltage, but also on the size of the high-frequency input voltage. In practice it will however, required by a control method that a calibration in relation to the performance can be made and this calibration independent of the tuning of the individual amplifier stages, inequalities is the gain factor of the stages, etc.

It is also known to control the power amplifier the voltage required for the grid bias of one or more amplifier stages composed of two partial voltages connected against one another, of which the one is adjustable and the other is taken from the amplifier output, and both Partial voltages, namely the voltage taken from the amplifier output and the controllable voltage Voltage to amplify in a common amplifier. Since the adjustable tension is preferably a DC voltage, a DC amplifier is used as the amplifier used.

Such an arrangement is shown in principle in Fig. I. there represents the tube r a power amplifier stage z. B. a high frequency transmitter represent whose grid circle has a high frequency voltage of. a preliminary stage or a Control stage is supplied. In the anode circuit there is an oscillation circuit 2 to which a consumer, e.g. B: an antenna or a further amplifier stage, coupled is. The anode circuit is also connected to one by the capacitances .3 and q. educated A voltage is taken from the voltage divider, which is rectified in the rectifier tube 5 will. The direct voltage effective at the output of the rectifier tube 5 is according to the invention a DC voltage is switched on, which is controlled via an adjustable potentiometer g is taken from the DC voltage source io. The one taken from the amplifier output and in the rectifier tube 5 rectified voltage and that of the potentiometer g tapped DC voltages thus counteract each other. Beilde tensions common; am in an amplifier (tubes 6, and 7 or further tubes), the is connected as a directly coupled DC amplifier, amplified and over the high-frequency choke 8, fed to the grid circuit of the power amplifier tube i.

This arrangement has the advantage that the amplifier on the potentiometerg can be calibrated in power units, regardless of the size (the input voltage.

According to the invention, it is proposed to go one step further and, when used in high-frequency transmitters, also undertake the modulation in the circuit of the controllable direct voltage. For this purpose, the transformer ii is provided in Fig. I, via which the modulation voltage is supplied. The power control and the modulation then take place in the same circuit and on the same line. The latter circuit can also be changed according to Fig. 2, where the Modulätiönstransformator ii and the battery io are in series parallel to the external terminals of the potentometer g. The terminals i2 and 13 are to be thought of as being connected to terminals 12 and 13 of Fig. I. The circuit has the advantage over Fig. I that with power control, the modulation voltage is also controlled at the same time and thus the degree of modulation remains constant.

Another useful embodiment is shown in Fig. 3, with the help of which at the holder 1q. in a simple way from keying to modulation, d. H. at half-value of the carrier can be switched. At switch 1q. is switched to keying in position 15 and in position 16 to modulation. With the help: the equal resistance 17 and 18 the DC voltage is reduced to half and. thereby carrier half value set. The modulation transformer i i is switched on at the same time.

Another possible application of the new control circuit is shown the arrangement according to Fig. 4., with the help of which on the transformer i i on the secondary side at the same time a control DC voltage by rectifying the modulation voltage generated and the Moidulation voltage is applied. About the secondary winding rg the modulation voltage is supplied and. about the secondary winding 2o and the Rectifier bridge 2 1 generates the control DC voltage. The size of the Control DC voltage at the output of the rectifier 2, i on the size of the transformer i i on the primary side supplied modulation voltage. So the wearer sways of the high-frequency transmitter irr clock of the mean modulation voltage according to the type of carrier-controlled transmitter. At low frequencies: power gain can be similar Controlled by rectifying the alternating voltage to be amplified.

Claims (3)

PATENT CLAIMS: i. Modulated transmitter, with a track control is carried out by regulating the DC grid voltage, which consists of a fixed, taken from the amplifier output and fed back to the grid circuit with rectification. and a controllable counter-connected partial voltage is composed, characterized in that the modulation voltage is in the range of the controllable partial voltage is fed. 2. Modulated transmitter according to claim i, characterized marked, that the modulation voltage source and a DC voltage source in series in parallel to a potentiometer, on-whose - sliding contact the modulation voltage and the adjustable partial voltage to achieve a constant degree of modulation can be regulated at the same time. 3. Modulated transmitter according to claim i and 2, characterized characterized in that the transition from keying (A. operation) to telephone modulation (A3 operation) the adjustable partial voltage with the help of a switch reduced to half its value and, the modulation voltage, preferably above a modulation transformer, is switched on.