Circuit for producing a laser diode control signal

What is claimed is: 1. A circuit for generating a modulated laser diode control signal from a laser diode control signal, comprising: an RF modulator including an input for receiving the laser diode control signal and for modulating the laser diode control signal using a modulation signal; an adjustment arrangement for adjusting the RF modulator, the adjustment arrangement being configured or configurable as a function of at least one laser diode operating information wherein: the adjustment arrangement includes a plurality of circuit elements that are selectively activated according to a plurality of different configurations, the adjustment arrangement includes an input for receiving a signal based on the laser diode operating information, the adjustment arrangement is selectively configured to assume each configuration of the circuit elements as a function of a corresponding value of the signal based on the laser diode operating information, each configuration of the adjustment arrangement adjusts at least one of a modulation frequency and an output impedance of the RF modulator, and the laser diode operating information encompasses at least one of a laser diode operating current intensity I and a laser diode operating voltage U; and an evaluation circuit configured to generate a quality signal from a ratio of the laser diode operating voltage U to the laser diode operating current intensity I. 2. The circuit as recited in claim 1 , further comprising: a directional coupler for measuring the laser diode operating information. 3. The circuit as recited in claim 1 , wherein the RF modulator, for generating the modulation signal, is configured with a modulation frequency greater than, or equal to 150 MHz and less than, or equal to 1.5 GHz. 4. The circuit as recited in claim 1 , wherein the RF modulator, for generating the modulation signal, is configured with a modulation frequency greater than, or equal to 200 MHz and less than, or equal to 1.0 GHz. 5. The circuit as recited in claim 1 , wherein the adjustment arrangement is configured so that the laser diode control signal is modulated using one of the modulation signal and an additional modulation signal. 6. The circuit as recited in claim 1 , wherein the plurality of circuit elements includes: a transistor, a plurality of adjustable capacitors, and an adjustable inductance. 7. The circuit as recited in claim 1 , wherein the plurality of circuit elements includes: a plurality of transistors connected in parallel. 8. The circuit as recited in claim 1 , wherein the plurality of circuit elements includes: a switch; and an inductor that is switched on and off by the switch. 9. The circuit as recited in claim 1 , wherein the plurality of circuit elements includes: a plurality of capacitors; and a plurality of switches, each capacitor being turned on and off by a respective one of the plurality of switches. 10. A laser diode receptacle, comprising: a circuit for generating a modulated laser diode control signal from a laser diode control signal, the circuit including: an RF modulator including an input for receiving the laser diode control signal and for modulating the laser diode control signal using a modulation signal; an adjustment arrangement for adjusting the RF modulator, the adjustment arrangement being configured or configurable as a function of at least one laser diode operating information, wherein: the adjustment arrangement includes a plurality of circuit elements that are selectively activated according to a plurality of different configurations, the adjustment arrangement includes an input for receiving a signal based on the laser diode operating information, the adjustment arrangement is selectively configured to assume each configuration of the circuit elements as a function of a corresponding value of the signal based on the laser diode operating information, each configuration of the adjustment arrangement adjusts at least one of a modulation frequency and an output impedance of the RF modulator, and the laser diode operating information encompasses at least one of a laser diode operating current intensity I and a laser diode operating voltage U; and an evaluation circuit configured to generate a quality signal from a ratio of the laser diode operating voltage U to the laser diode operating current intensity I. 11. A projector, comprising: a laser diode receptacle including a circuit for generating a modulated laser diode control signal from a laser diode control signal, the circuit including: an RF modulator including an input for receiving the laser diode control signal and for modulating the laser diode control signal using a modulation signal; an adjustment arrangement for adjusting the RF modulator, the adjustment arrangement being configured or configurable as a function of at least one laser diode operating information, wherein the laser diode control signal is an image data signal, wherein: the adjustment arrangement includes a plurality of circuit elements that are selectively activated according to a plurality of different configurations, the adjustment arrangement includes an input for receiving a signal based on the laser diode operating information, the adjustment arrangement is selectively configured to assume each configuration of the circuit elements as a function of a corresponding value of the signal based on the laser diode operating information, each configuration of the adjustment arrangement adjusts at least one of a modulation frequency and an output impedance of the RF modulator, and the laser diode operating information encompasses at least one of a laser diode operating current intensity I and a laser diode operating voltage U; and an evaluation circuit configured to generate a quality signal from a ratio of the laser diode operating voltage U to the laser diode operating current intensity I. 12. The projector as recited in claim 11 , wherein the projector is an image projector. 13. The projector as recited in claim 12 , further comprising a laser diode. 14. A method for adjusting an RF modulator in a circuit for producing a modulated laser diode control signal from a laser diode control signal, wherein the circuit has an RF modulator including an input for receiving the laser diode control signal and for modulating the laser diode control signal using a modulation signal, the method comprising: ascertaining at least one laser diode operating information; configuring, as a function of the laser diode operating information, an adjustment arrangement of the circuit for an adjustment of the RF modulator for producing the modulation signal, wherein the configuring includes: receiving, by the adjustment arrangement a signal based on the laser diode operating information, selectively activating a plurality of circuit elements of the adjusting arrangement according to one of a plurality of different configurations, as a function of a corresponding value of the signal based on the laser diode operating information, wherein each configuration of the adjustment arrangement adjusts at least one of a modulation frequency and an output impedance of the RF modulator, wherein the laser diode operating information encompasses at least one of a laser diode operating current intensity I and a laser diode operating voltage U; and generating a quality signal from a ratio of the laser diode operating voltage U to the laser diode operating current intensity I. 15. The method as recited in claim 14 , further comprising measuring at least one of a laser diode operating current intensity I