Charge pump apparatus, phase-locked loop, and method of operating a charge pump apparatus

The invention claimed is: 1. A charge pump, comprising: a charge pump circuit for providing an output voltage, and a driving stage circuit connected to the charge pump circuit and arranged to drive the charge pump circuit; the charge pump circuit comprising: a first bipolar switching device, a second bipolar switching device, a first collector line, a second collector line, an emitter line, and an output, each of the first and second bipolar switching devices comprising a collector, an emitter, and a base, wherein the emitter of the first bipolar switching device and the emitter of the second bipolar switching device are connected to each other so as to form together a common emitter of the first and second bipolar switching device, wherein the first collector line connects the collector of the first bipolar switching device to a high potential provider, the second collector line connects the collector of the second bipolar switching device to the high potential provider and comprises a first current source, the emitter line connects the common emitter of the first and second bipolar switching devices to a low potential provider and comprises a second current source, and the output is provided by or connected to the collector of the second bipolar switching device and provides said output voltage; the driving stage circuit is arranged to apply a charge pump circuit driving signal across the base of the first bipolar switching device and the base of the second bipolar switching device and arranged to control the charge pump circuit driving signal in accordance with a driving stage input signal, wherein the charge pump circuit driving signal has a DC operating point relative to the low potential provider; and the driving stage circuit is arranged to effect a shift of said DC operating point of the charge pump circuit driving signal as a function of the output voltage of the charge pump circuit, wherein said shift is an increasing function of the output voltage of the charge pump circuit. 2. The charge pump of claim 1 , wherein the driving stage circuit comprises a controllable resistor having a resistance which is controllable, wherein said shift is a function of said resistance. 3. The charge pump of claim 1 , wherein the driving stage circuit comprises an output sensing unit connected to the output of the charge pump circuit and having associated with it a countable set of two or more adjoining ranges and arranged to detect an operating range in the countable set of two or more adjoining ranges, the operating range being the range which comprises the output voltage of the charge pump circuit. 4. The charge pump of claim 3 , wherein the driving stage circuit comprises a controllable resistor having a control input connected to an output of the output sensing unit, the controllable resistor having a resistance which is a function of the operating range detected by the output sensing unit. 5. The charge pump of claim 3 , wherein the output sensing unit comprises two or more comparators arranged to determine the operating range. 6. The charge pump of claim 3 , wherein the output sensing unit is arranged to memorize the operating range. 7. The charge pump of claim 1 , wherein said increasing function is a step function. 8. The charge pump of claim 1 , wherein the first collector line comprises a forward biased diode or a forward biased collector-base-shorted bipolar switching device. 9. The charge pump of claim 1 , wherein the driving stage circuit is connected or connectable between the high potential provider and the low potential provider so as to be powered by the high potential provider and the low potential provider. 10. A phase-locked loop PLL, comprising the charge pump of claim 1 . 11. A phase-locked loop PLL, comprising the charge pump of claim 1 and having a voltage-controlled oscillator VCO having an input connected to the output of the charge pump circuit. 12. A phase-locked loop PLL, comprising the charge pump of claim 1 and having a frequency detector and a frequency divider, wherein the frequency detector has a first input connected or connectable to a reference oscillator and a second input connected or connectable to an output of the frequency divider, and the frequency divider has an input connected to an output of the VCO. 13. A transmitter for an automotive radar system, comprising a PLL that comprises the charge pump of claim 1 . 14. An automotive radar system comprising: a transmitter as claimed in claim 13 , for transmitting a radar signal a receiver for receiving a reflection of the transmitted radar signal reflected back by a nearby object. 15. A method of operating a charge pump, the charge pump comprising a charge pump circuit for providing an output voltage and a driving stage circuit connected to the charge pump circuit and arranged to drive the charge pump circuit, wherein the charge pump circuit comprises a first bipolar switching device, a second bipolar switching device, a first collector line, a second collector line, an emitter line, and an output, each of the first and second bipolar switching devices comprising a collector, an emitter, and a base, wherein the emitter of the first bipolar switching device and the emitter of the second bipolar switching device are connected to each other so as to form together a common emitter of the first and second bipolar switching device, wherein the first collector line connects the collector of the first bipolar switching device to a high potential provider, the second collector line connects the collector of the second bipolar switching device to the high potential provider and comprises a first current source, the emitter line connects the common emitter of the first and second bipolar switching devices to a low potential provider and comprises a second current source, and the output is provided by or connected to the collector of the second bipolar switching device and provides said output voltage; and wherein the method comprises: operating the driving stage circuit to apply a charge pump circuit driving signal across the base of the first bipolar switching device and the base of the second bipolar switching device and to control the charge pump circuit driving signal in accordance with a driving stage input signal, operating the driving stage circuit to effect a shift of said DC operating point of the charge pump circuit driving signal as a function of the output voltage of the charge pump circuit, wherein said shift is an increasing function of the output voltage of the charge pump circuit.