Microwave heating apparatus

The invention claimed is: 1. A microwave heating apparatus comprising: a cavity arranged to receive a load; a microwave generator arranged to generate microwaves; a transmission line arranged to transmit the generated microwaves to the cavity; a sensing device arranged to measure a standing wave in the transmission line and configured to provide information about the phase and the amplitude of a reflection coefficient, the reflection coefficient being representative of the ratio between the amount of microwaves reflected back towards the microwave generator and the amount of microwaves transmitted in the transmission line from the microwave generator; and a control unit configured to detect whether the measured standing wave corresponds to a reflection coefficient having a phase within a predetermined interval of phases and an amplitude within a predetermined interval of amplitudes, said predetermined intervals of phases and amplitudes corresponding to an operating region of the microwave generator, and to control the microwave generator based on the detection. 2. The microwave heating apparatus according to claim 1 , wherein the control unit is configured to, in response to the detection that the measured standing wave corresponds to a reflection coefficient having a phase within said predetermined interval of phases and an amplitude within said predetermined interval of amplitudes, alter control of parameters of the microwave generator. 3. The microwave heating apparatus according to claim 1 , wherein the control unit is configured to alter control of parameters of the microwave generator on a condition that a measured time exceeds a time limit. 4. The microwave heating apparatus according to claim 2 , wherein the control unit is configured to alter a duty cycle for operating the microwave generator. 5. The microwave heating apparatus according to claim 2 , wherein the control unit is configured to alter parameters of the microwave generator by deactivating the microwave generator. 6. The microwave heating apparatus according to claim 1 , wherein the operating region of the microwave generator, to which said predetermined intervals of phases and amplitudes correspond, is one of the group comprising sink phase and anti-sink phase, said microwave generator being a magnetron. 7. The microwave heating apparatus according to claim 1 , wherein the correspondence between the predetermined intervals of amplitudes and phases of the reflection coefficient and said operating region of the microwave generator is a known intrinsic characteristic of the microwave generator. 8. The microwave heating apparatus according to claim 1 , wherein the control unit is adapted to deactivate the microwave generator on a condition that the measured standing wave corresponds to a reflection coefficient having an amplitude above a tolerance level, wherein said predetermined interval of amplitudes is defined by amplitude values below the tolerance level. 9. The microwave heating apparatus according to claim 1 , wherein the sensing device is arranged to measure the standing wave at different positions along the transmission line, said positions being selected such that the measured standing waves provide information about the phase and amplitude of the reflection coefficient. 10. The microwave heating apparatus according to claim 1 , wherein the sensing device is arranged to measure the standing wave at least at four different positions spaced from each other along the transmission line. 11. The microwave heating apparatus according to claim 10 , wherein the spacing between two adjacent positions is approximately equal to λ g /8+n×λ g /2, wherein λ g is the wavelength of the microwaves in the transmission line, and n is an integer. 12. The microwave heating apparatus according to claim 11 , wherein the sensing device is configured to obtain information about the phase and amplitude of the reflection coefficient using the difference between the standing waves measured at two of said four different positions, said two positions being separated along the transmission line by approximately λ g /4+n×λ g /2, and the difference between the standing waves measured at the two remaining positions. 13. The microwave heating apparatus according to claim 12 , wherein the predetermined interval of phases has a range being less than λ g /2, wherein λ g is the wavelength of the microwaves in the transmission line. 14. The microwave heating apparatus according to claim 1 , wherein the predetermined interval of amplitudes extends from a value corresponding to no reflection of microwaves back towards the microwave generator to a value corresponding to full reflection of microwaves back towards the microwave generator. 15. A method of heating a load in a cavity using microwaves transmitted in a transmission line from a microwave generator, the method comprising the steps of: measuring a standing wave for providing information about the phase and the amplitude of a reflection coefficient, the reflection coefficient being representative of the ratio between the amount of microwaves reflected back towards the microwave generator and the amount of microwaves transmitted in the transmission line from the microwave generator; detecting whether the measured standing wave corresponds to a reflection coefficient having a phase within a predetermined interval of phases and an amplitude within a predetermined interval of amplitudes, said certain intervals of phases and amplitudes corresponding to an operating region of the microwave generator; and controlling the microwave generator based on the detection. 16. The microwave heating apparatus according to claim 1 , wherein the control unit is configured to measure time during a single visit in the operating region. 17. The microwave heating apparatus according to claim 1 , wherein the control unit is configured to measure time accumulated during several visits in the operation region during a heating procedure. 18. The microwave heating apparatus according to claim 1 , wherein the sensing device is further arranged to measure a standing wave strength in the transmission line, and wherein the control unit is further configured to detect whether the measured standing wave strength corresponds to a reflection coefficient having a phase within a predetermined interval of phases and an amplitude within a predetermined interval of amplitudes. 19. The microwave heating apparatus according to claim 18 wherein the standing wave strength corresponds to a maxima or minima of the standing wave. 20. The microwave heating apparatus according to claim 18 wherein the phase corresponds to a distance from a reference plan in the transmission line to the standing wave strength in the transmission line.