Dual-channel radio frequency receiver and frequency planning method thereof

A radio frequency receiver and frequency planning technology, applied in satellite radio beacon positioning systems, measurement devices, instruments, etc., can solve problems such as annihilation, different output sampling frequencies, and radio frequency receiver failures, so as to reduce design difficulties and reduce The effect of interference and improved reliability

Inactive Publication Date: 2011-11-16
上海迦美信芯通讯技术有限公司
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Problems solved by technology

[0009] First, due to the output clocks of the two digital-to-analog converters 109, that is figure 2 The output sampling frequency of the centerline 116 position is different, which leads to the complexity of the subsequent baseband processing chip;
[0010] Second, also due to the difference in the sampling frequencies output by the center line 116 of the upper

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  • Dual-channel radio frequency receiver and frequency planning method thereof
  • Dual-channel radio frequency receiver and frequency planning method thereof
  • Dual-channel radio frequency receiver and frequency planning method thereof

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Embodiment Construction

[0056] Such as image 3 As shown, the dual-channel radio frequency receiver of the present invention can adapt to receive any two global navigation satellite system (hereinafter referred to as GNSS) radio frequency signals of different modes and frequencies through two independent signal receiving channels.

[0057] The overall structure of the radio frequency receiver of the present invention is similar to the prior art. In each signal receiving channel, the first stage low noise amplifier 202 receives the radio frequency signal corresponding to any one of all GNSS satellites, and the signal is amplified and output to A dual-band or two corresponding radio-frequency surface acoustic wave filter 203 outside the chip performs filtering processing; after that, it is connected back to the chip and further amplified by the second-stage low-noise amplifier 204 .

[0058] The mixer 205, according to the local oscillator frequency signal output by the voltage-controlled oscillator 21...

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Abstract

The invention provides a dual-channel radio frequency receiver and a frequency planning method thereof. In the method, any two paths of radio frequency signals of a global navigation satellite systems with different modes or different frequencies are received through two independent signal receiving channels respectively; local oscillation frequency which is output to a frequency mixer by an voltage-controlled oscillator is regulated, so that radio frequency carrier frequency is mixed and an intermediate frequency signal is output; an intermediate frequency filter with image rejection is subjected to parameter configuration, so that an image rejection signal in the intermediate frequency signal matched with the intermediate frequency filter is rejected; and the frequency division value of a phase locked loop synthesizer with fractional-N frequency is configured so as to perform feedback control on the local oscillation frequency. By utilizing the method, sampling frequencies which are transmitted to two analog-digital converters by a digital phase locked loop are configured, and the sampling frequencies of the two analog-digital converters are same, so that the system and the interface design with an off-chip baseband processing chip of the system is simplified, and signal cross-talk is basically eliminated.

Description

technical field [0001] The invention relates to a communication chip and a frequency planning method thereof, in particular to a dual-channel radio frequency receiver suitable for global navigation system (GNSS) multi-frequency multi-mode reception and a frequency planning method thereof. Background technique [0002] GNSS (Global Navigation Satellite Systems) currently mainly includes the US Global Positioning System GPS (Global Positioning System), Russia's GLONASS Navigation Satellite System GLONASS (GLObal Navigation Satellite System), the European Union's Galileo Positioning System Galileo ( Galileo Positioning System) and China’s Beidou satellite navigation system Compass, see the corresponding frequency band division figure 1 The spectrum distribution diagram of GNSS navigation satellites is shown, and the corresponding encrypted P(Y) signals of GPS L1 and L2 are not drawn. [0003] From figure 1 It can be seen that the spectrum distribution of GNSS is about 1156MH...

Claims

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Application Information

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IPC IPC(8): G01S19/32G01S19/36G01S19/21
Inventor 倪文海钱晓辉徐文华
Owner 上海迦美信芯通讯技术有限公司
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