Current-controlled oscillator with start-up circuit

The invention claimed is: 1. A start-up circuit for a ring current-controlled oscillator (CCO), wherein the ring CCO receives a CCO current, the startup circuit comprising: a replica CCO current generator that receives a reference voltage and a supply voltage, and generates a replica CCO current; a replica ring CCO connected to the replica CCO current generator for receiving the replica CCO current, wherein the replica ring CCO generates a replica CCO output voltage at a first oscillating frequency that is less than a second oscillating frequency of a CCO output voltage of the ring CCO; and a buffer, connected to the ring CCO and the replica ring CCO, wherein the buffer provides a first current to the ring CCO when the second oscillating frequency is lower than a desired oscillating frequency of the CCO output voltage, and drains a second current from the ring CCO when the second oscillating frequency is greater than the desired oscillating frequency. 2. The start-up circuit of claim 1 , wherein the replica CCO current generator comprises: a current source that receives the reference voltage and generates a reference current; and a current mirror that receives the reference current from the current source, and the supply voltage, and generates the replica CCO current. 3. The start-up circuit of claim 2 , wherein the current source comprises: an amplifier having a first input terminal that receives the reference voltage, a second input terminal that receives a feedback voltage, and an output terminal that provides an error voltage; and a transistor having a gate terminal connected to the output terminal of the amplifier for receiving the error voltage, a source terminal connected to the second input terminal of the amplifier for providing the feedback voltage thereto, and a drain terminal that provides the reference current. 4. The start-up circuit of claim 2 , wherein the current mirror comprises: a first transistor having a source terminal that receives the supply voltage, and a gate terminal connected to a drain terminal thereof for receiving the reference current; and a second transistor having a source terminal that receives the supply voltage, a gate terminal connected to the gate terminal of the first transistor, and a drain terminal that provides the replica CCO current. 5. The start-up circuit of claim 1 , wherein the replica ring CCO comprises an inverter chain connected between the replica CCO current generator and the buffer, wherein the inverter chain receives the replica CCO current and generates the replica CCO output voltage. 6. The start-up circuit of claim 5 , wherein the inverter chain comprises an odd number of inverters connected in series, wherein a first inverter in said series is connected to an output of the last inverter in said series for receiving replica CCO output voltage, and each of the inverters in said chain receives the replica CCO current at a respective control terminal thereof. 7. The start-up circuit of claim 1 , wherein the buffer comprises: an amplifier having a first input terminal that receives the replica CCO current, a second input terminal that receives a feedback voltage, and an output terminal that provides an error voltage; and a transistor having a gate terminal connected to the output terminal of the amplifier for receiving the error voltage, a drain terminal that receives the supply voltage, and a source terminal connected to the second input terminal of the amplifier for providing the feedback voltage thereto, wherein the first current is generated at the source terminal of the transistor, and the second current is drained to the source terminal of the transistor. 8. A system for generating a current-controlled oscillator (CCO) output voltage at a first oscillating frequency, the system comprising: a ring CCO connected to a first node for receiving a CCO current, wherein the ring CCO generates the CCO output voltage at the first oscillating frequency; a CCO driver connected to the ring CCO by way of the first node, wherein the CCO driver receives a supply voltage and a first reference current, and provides the CCO current at the first node; and a start-up circuit that receives a reference voltage and the supply voltage, and wherein the start-up circuit controls the first oscillating frequency of the CCO output voltage by providing a first current at the first node when the first oscillating frequency is lower than a desired oscillating frequency of the CCO output voltage, and drains a second current from the first node when the first oscillating frequency is greater than the desired oscillating frequency. 9. The system of claim 8 , wherein the ring CCO comprises: a capacitor connected between the first node and ground; and a first inverter chain, connected to the first node, that receives the CCO current, and generates the CCO output voltage at the first oscillating frequency. 10. The system of claim 9 , wherein: the first inverter chain comprises an odd number of inverters connected in series, an output of the last inverter in the series is connected to an input of the first inverter in the series, control terminals of the inverters are connected to the first node and receive the CCO current, and the CCO output voltage is provided at the output of the last inverter in the series. 11. The system of claim 8 , wherein the CCO driver comprises: a reference start-up circuit that receives the first reference current, and generates a start-up voltage; and a first current source that receives the supply voltage and is connected to the reference start-up circuit for receiving the start-up voltage, wherein the first current source generates the CCO current using the start-up voltage. 12. The system of claim 11 , wherein the first current source comprises: a first transistor having a source terminal that receives the supply voltage, a gate terminal connected to the reference start-up circuit for receiving the start-up voltage, and a drain terminal for generating a third current; a second transistor having a source terminal that receives the supply voltage, a gate terminal connected to the reference start-up circuit for receiving the start-up voltage, and a drain terminal for generating a fourth current; a third transistor having a source terminal that receives the supply voltage, a gate terminal connected to the reference start-up circuit for receiving the start-up voltage, and a drain terminal that generates the CCO current; and a first amplifier that has first and second input terminals connected to the drain terminals of the first and second transistors, and an output terminal that generates an error voltage, wherein the error voltage is provided to the gate terminals of the first through third transistors, and wherein the third transistor regulates the CCO current based on the error voltage. 13. The system of claim 12 , wherein the current source further comprises: a fourth transistor having a source terminal connected to ground, a drain terminal connected to the drain terminal of the first transistor, and a gate terminal connected to its drain terminal; a fifth transistor having a source terminal connected to ground, a drain terminal connected to the drain terminal of the second transistor by way of a first resistor, and a gate terminal connected to its drain terminal; a second resistor connected between the source and drain terminals of the fourth transistor; and a third resistor connected between the drain of the second transistor and the first resistor, and ground. 14. The system of claim 8 , wherein the start-up circuit comprises: a replica CCO cu