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A charge-pump phase-locked loop using dual voltage-controlled voltage-controlled oscillators

A technology of voltage-controlled oscillator and voltage control, which is applied in the direction of automatic power control and electrical components, can solve the problems of rising power consumption, increasing hardware consumption and layout area, unfavorable integration, etc., and achieve the effect of reducing power consumption

Active Publication Date: 2021-09-21
BEIJING MXTRONICS CORP +1
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] At present, most common charge pump phase-locked loops use a voltage-controlled oscillator structure with a single control voltage. The locking speed of the phase-locked loop is improved through bandwidth switching or pre-start strategies. The main problem is that additional circuit modules need to be designed, which increases hardware consumption. and layout area, while bringing about an increase in power consumption, which is not conducive to integration

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  • A charge-pump phase-locked loop using dual voltage-controlled voltage-controlled oscillators
  • A charge-pump phase-locked loop using dual voltage-controlled voltage-controlled oscillators
  • A charge-pump phase-locked loop using dual voltage-controlled voltage-controlled oscillators

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Embodiment Construction

[0025] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

[0026] figure 1 An integral structure of a charge pump locking ring provided by a dual voltage controlled voltage controlled oscillator is provided in the present invention. The charge pump locking ring is composed of input divider B101, a diagram ferry gear B102, a charge pump B103, a loop filter B104, a voltage controlled oscillator B105, an output divider B106, and a feedback divider B107.

[0027] The voltage controlled oscillator circuit includes two parts: an N-stage ring oscillator and an enlarged shaping circuit.

[0028] The n-stage oscillator delay stage, N ≥ 3, each of which receives the output voltage Vc1 from the charge pump B103 and the output voltage Vc2 from the loop filter B104, respectively, respectively, respectively, respectively. The second bias voltage, according to the amplitude of the first bias voltage and the seco...

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Abstract

The present invention provides a charge pump phase-locked loop adopting a dual-circuit voltage control voltage-controlled oscillator, the phase-locked loop includes an N-stage ring oscillator B200 and an amplification and shaping circuit B201, receiving the charge pump and The loop filter generates two control voltages respectively, and generates a sine wave oscillation signal of a certain frequency according to the control voltage, and shapes it into a square wave, which is used as the input signal of the digital frequency divider of the charge pump phase-locked loop. Compared with the traditional voltage-controlled oscillator, the present invention uses two control voltages VC1 and VC2 as the tuning voltage, VC1 as the coarse tuning voltage, and VC2 as the fine tuning voltage, taking into account the tuning speed and the quality of the oscillation signal, and can effectively accelerate the charge pump lock Locking of the phase ring.

Description

Technical field [0001] The present invention relates to a charge pump lock phase loop using a dual voltage controlled voltage controlled oscillator, belonging to the technical field of integrated circuits. Background technique [0002] The phase-locked loop is a frequency and phase synchronization technique implemented by the feedback control principle, which provides a low noise clock signal that has been widely used in the fields of wireless communication, navigation, and computers. The charge pump locking ring is a typical representative of digital-to-mode mixed lock, which is zero, with high speed, low jitter, low power consumption and other significant advantages, and is currently the most widely used phase locked loop. The basic structure of the charge pump lock ring figure 1 Indicated. [0003] As the integrated circuit process continues to improve and the continued increase in scale, the requirements of the integrated circuit system on the performance of the phase-locked ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H03L7/089H03L7/099H03L7/18
CPCH03L7/0895H03L7/0995H03L7/18
Inventor 杨铭谦陈雷王科迪张健李智李学武张彦龙
Owner BEIJING MXTRONICS CORP
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