FMCW radar level gauge with lock state control

What is claimed is: 1. A radar level gauge system for determining a filling level of a product in a tank, comprising: a transceiver for generating, transmitting and receiving electromagnetic signals; a signal propagation device coupled to the transceiver for propagating a transmit signal towards a surface of said product, and for propagating a surface echo signal resulting from reflection of said transmit signal at said surface back towards said transceiver; and processing circuitry coupled to said transceiver for determining said filling level based on a relation between said transmit signal and said surface echo signal, said transceiver comprising: PLL circuitry for generating an output signal, said PLL circuitry being configured to indicate a lock state of said PLL circuitry; and frequency modifying circuitry connected to said PLL circuitry for receiving said output signal and for increasing a frequency of said output signal to form said transmit signal, wherein said frequency modifying circuitry is controllable between a first state in which the frequency of said output signal is not increased by said frequency modifying circuitry, and a second state in which the frequency of said output signal is increased by said frequency modifying circuitry, and wherein said frequency modifying circuitry is arranged and configured to receive a PLL status signal indicative of said lock state of the PLL circuitry, and to transition from said first state in which the frequency of said output signal is not increased by said frequency modifying circuitry to said second state in which the frequency of said output signal is increased by said frequency modifying circuitry in response to said PLL status signal indicating that said PLL circuitry is in a locked state. 2. The radar level gauge system according to claim 1 , wherein said PLL circuitry has a first output for providing said output signal and a second output for providing a lock state signal indicating said lock state of the PLL circuitry; and wherein said frequency modifying circuitry has a first input connected to said first output of said PLL circuitry for receiving said output signal and a second input connected to said second output of said PLL circuitry for receiving said lock state signal. 3. The radar level gauge system according to claim 2 , wherein said PLL status signal is based on said lock state signal from said PLL circuitry and on a signal from the processing circuitry. 4. The radar level gauge system according to claim 3 , wherein said signal from the processing circuitry is a PLL enable signal indicating that the PLL circuitry is enabled. 5. The radar level gauge system according to claim 1 , wherein said PLL circuitry has a first output for providing said output signal and a second output for providing a lock state signal indicating said lock state of the PLL circuitry; wherein said frequency modifying circuitry is connected to said first output of the PLL circuitry for receiving said output signal and said processing circuitry is connected to said second output of the PLL circuitry for receiving said lock state signal; wherein said processing circuitry is configured to generate said PLL status signal based on said lock state signal; and wherein said processing circuitry is connected to said frequency modifying circuitry for providing said PLL status signal to said frequency modifying circuitry. 6. The radar level gauge system according to claim 1 , wherein said frequency modifying circuitry comprises at least one frequency multiplier. 7. The radar level gauge system according to claim 6 , wherein said frequency multiplier is configured to multiply the frequency of said output signal by at least a factor of two. 8. The radar level gauge system according to claim 1 , further comprising amplifying circuitry for amplifying said transmit signal, said amplifying circuitry being arranged and configured to receive said PLL status signal indicative of said lock state of the PLL circuitry, and to amplify said transmit signal in response to said PLL status signal indicating that said PLL circuitry is in said locked state. 9. The radar level gauge system according to claim 1 , wherein said radar level gauge system comprises frequency control circuitry coupled to said PLL circuitry for controlling said PLL circuitry to generate said output signal in the form of a sequence of different frequencies. 10. The radar level gauge system according to claim 9 , wherein said frequency control circuitry is configured to control said PLL circuitry to generate said output signal in the form of a frequency sweep with a monotonically varying frequency. 11. The radar level gauge system according to claim 10 , wherein said frequency sweep comprises a plurality of frequency steps. 12. The radar level gauge system according to claim 9 , wherein said frequency control circuitry is comprised in said processing circuitry. 13. The radar level gauge system according to claim 1 , wherein said processing circuitry is configured to determine said filling level based on a phase difference between said transmit signal and said surface echo signal. 14. A radar level gauge system for determining a filling level of a product in a tank, comprising: a transceiver for generating, transmitting and receiving electromagnetic signals; a signal propagation device coupled to the transceiver for propagating a transmit signal towards a surface of said product, and for propagating a surface echo signal resulting from reflection of said transmit signal at said surface back towards said transceiver; and processing circuitry coupled to said transceiver for determining said filling level based on a relation between said transmit signal and said surface echo signal, said transceiver comprising: PLL circuitry for generating an output signal, said PLL circuitry being configured to indicate a lock state of said PLL circuitry; and amplifying circuitry connected to said PLL circuitry for receiving said output signal and for amplifying said output signal to form said transmit signal, wherein said amplifying circuitry is controllable between a low amplification state in which said output signal is amplified by said amplifying circuitry with a first amplification factor, and a high amplification state in which said output signal is amplified by said amplifying circuitry with a second amplification factor being higher than said first amplification factor, and wherein said amplifying circuitry is arranged and configured to receive a PLL status signal indicative of said lock state of the PLL circuitry, and to transition from said low amplification state in which said output signal is amplified by said amplifying circuitry with a first amplification factor to said high amplification state in which said output signal is amplified by said amplifying circuitry with a second amplification factor being higher than said first amplification factor in response to said PLL status signal indicating that said PLL circuitry is in a locked state. 15. The radar level gauge system according to claim 14 , wherein said transceiver further comprises: frequency modifying circuitry connected to said PLL circuitry for receiving said output signal and for increasing a frequency of said output signal, wherein said frequency modifying circuitry is controllable between a first state in which the frequency of said output signal is not increased by said frequency modifying circuitry, and a second state in which the frequency of said output signal is increased by said frequency modifying circuitry, and wherein said frequency modifying c