Apparatus and method for generating a temperature-dependent control signal

The invention claimed is: 1. An apparatus for generating a temperature-dependent control signal, the apparatus comprising; a current-to-voltage converter arranged to receive a temperature-dependent current which varies with temperature according to a selected one of two or more temperature coefficient factors and to convert the received temperature-dependent current to a temperature-dependent voltage, a comparator arranged to receive the temperature-dependent voltage and to compare the received temperature-dependent voltage with a reference voltage and to generate a switching signal at an output of the comparator when the received temperature-dependent voltage reaches a pre-set value relative to said reference voltage, and a control module operably coupled to the output of the comparator and arranged to generate a selection signal for selecting a different one of said two or more temperature coefficient factors when a switching signal is received from the comparator, whereby a temperature-dependent control signal comprising a multi-slope temperature dependent voltage is generated at the output of the current-to-voltage converter. 2. The apparatus of claim 1 comprising a multi-slope current generation circuit arranged to generate a temperature-dependent current which varies with temperature according to a selected one of two or more temperature coefficient factors and having an output operably coupled to the current-to-voltage converter and an input operably coupled to the control module, and arranged to select a different one of said two or more temperature coefficient factors in response to a selection signal received from the control module. 3. The apparatus of claim 2 wherein the multi-slope current generation circuit comprises: a first current source for providing a first current varying with a temperature according to a positive temperature coefficient factor, a second current source for providing a second current varying with the temperature according to a negative temperature coefficient factor, a common terminal, a first programmable amplifying current mirror being coupled to the common terminal for conducting a first amplified current to the common terminal, a first input current being amplified by the first programmable amplifying current mirror according to a first amplification factor A, the first input current being one of the first current or the second current, the first programmable amplifying current mirror being configured to adapt the first amplification factor A in dependence of a control signal, a second programmable amplifying current mirror being coupled to the common terminal for conducting a second amplified current away from the common terminal, a second input current being amplified by the second programmable amplifying current mirror according to a second amplification factor B, the second input current being another one of the first current or the second current, the second programmable amplifying current mirror being configured to adapt the second amplification factor B in dependence of the control signal, a current output circuit being coupled to the common terminal, the current output circuit being configured for conducting a difference current away from the common terminal and for providing an output current varying with a temperature according to the a required temperature coefficient factor, the difference current being substantially equal to the first amplified current minus the second amplified current, the output current being based on the difference current. 4. The apparatus of claim 1 wherein the current-to-voltage converter comprises a cascode current mirror arrangement and an output resistor. 5. The apparatus of claim 1 wherein the comparator comprises N comparators each arranged to receive the temperature-dependent voltage and to compare the received temperature-dependent voltage with one of N different, respective reference voltages and to generate a switching signal when the received temperature-dependent voltage reaches a pre-set value relative to a respective reference voltage, and wherein the control module is operably coupled to the output of each comparator and arranged to generate a selection signal for selecting one of said two or more temperature coefficient factors, depending on a state of the outputs of each comparator. 6. The apparatus of claim 1 wherein the comparator comprises at least one hysteresis comparator. 7. The apparatus of claim 1 wherein the apparatus is implemented in an integrated circuit. 8. The apparatus of claim 1 wherein the apparatus is implemented with a voltage controlled oscillator in an integrated circuit. 9. A method for generating a temperature-dependent control signal, the method comprising; at a current-to-voltage converter, receiving a temperature-dependent current which varies with temperature according to a selected one of two or more temperature coefficient factors, converting the received temperature-dependent current to a temperature-dependent voltage, in a comparator, comparing the received temperature-dependent voltage with a reference voltage and generating a switching signal when the received temperature-dependent voltage reaches a pre-set value relative to said reference voltage, and in a control module, generating a selection signal for selecting a different one of said two or more temperature coefficient factors in response to receipt of a switching signal, whereby a temperature-dependent control signal comprising a multi-slope temperature dependent voltage is generated at the output of the current-to-voltage converter. 10. The method of claim 9 comprising generating a temperature-dependent current which varies with temperature according to a selected one of two or more temperature coefficient factors and in response to receiving the selection signal. 11. The method of claim 9 comprising applying the multi-slope temperature-dependent voltage to a varactor of a voltage controlled oscillator.