| 摘要 |
A low power and low jitter CMOS ring oscillator having a novel architecture that includes fully symmetrical differential current steering delay cells. This novel ring oscillator includes a first capacitor coupled between the first power supply rail and a bias voltage input. At least one stage couples across the first capacitor. Each stage includes a first transistor, a second capacitor, and a fully symmetrical differential delay cell. In an embodiment, the first transistor may be a PMOS transistor, where the drain of the first PMOS transistor connects to the first power supply rail and the gate of the first PMOS transistor couple to the bias voltage input. The second capacitor couples between the source of the first transistor and ground and acts as a low pass filter. As a result, the second capacitor minimizes the effects of the thermal and flicker noise of the devices which provide the tail current. The fully symmetrical differential delay cell includes a control input, a differential input and a differential output. The control input couples to the source of the first PMOS transistor. When one stage is present, the differential input couples to the differential output. When more than one stage is present, the differential outputs couple to the differential inputs of the concurrent delay cell. In addition, the delay cell in the last stage couples to the differential input of the delay cell in the first stage.
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