MICROWAVE SOURCE SYSTEM

Abstract

A microwave source system 1 extracts power in a predetermined microwave frequency band out of thermal noise power generated by a resistor (3) by using filter means (4), amplifies the power through a first amplifier (5) and a second amplifier (7), and outputs the power. The first amplifier (5) is variably controllable in gain and control means (6) controls the gain in such a way as to maintain the intensity of the microwave power output from the first amplifier 5 at a predetermined constant value. The second amplifier (7) has a predetermined gain. The resistor (3) is attached to one of the first amplifier (5) and the second amplifier (7), for example, to the second amplifier (7). Thereby, the resistor (3) receives heat from the amplifier (7). Output of the microwave source system (1) is supplied to, for example, a microwave discharge lamp (2). The microwave source system (1) having the above configuration can be compact and inexpensive without a need for a magnetron or a high voltage power supply.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram showing the overall configuration of a light source system including a microwave source system according to one embodiment of the present invention and a microwave discharge lamp to which microwave power generated by the microwave source system is supplied.

Claims

1. A microwave source system comprising: a resistor which generates thermal noise power;a filter means which receives an input of the thermal noise power generated by the resistor and extracts thermal noise power in a predetermined microwave frequency band from the thermal noise power;a first amplifier which has a controllable gain and amplifies the microwave power which is the thermal noise power extracted by the filter means;a control means which detects the intensity of the microwave power output from the first amplifier and controls the gain of the first amplifier in such a way as to maintain the microwave power output from the first amplifier at a predetermined constant intensity according to the detected intensity; anda second amplifier which amplifies the microwave power output from the first amplifier at a predetermined gain and outputs the amplified microwave power as microwave power to be supplied to the outside,wherein the resistor is attached to one of the first amplifier and the second amplifier in such a way as to receive heat generated by the amplifier concerned.

2. A microwave source system according to claim 1, wherein the resistor is attached to one reaching a higher temperature of the first amplifier and the second amplifier.

3. A microwave source system according to claim 1, wherein the resistor is attached to the second amplifier.

4. A microwave source system according to claim 1, wherein the microwave power output from the second amplifier is supplied to a microwave discharge lamp, which houses an emission cell having a light emitting material sealed in the internal space of a resonator for resonating the microwave and emits light by exciting the light emitting material in the emission cell by energy of the microwave resonating in the internal space of the resonator and wherein the predetermined microwave frequency band is set to a frequency band including a variation range of the resonance frequency of the resonator of the microwave discharge lamp.

5. A microwave source system according to claim 4, wherein the predetermined microwave frequency band is set to a frequency band including at least a variation range previously determined as a variation range of the resonance frequency caused by a temperature condition of the resonator of the microwave discharge lamp.