CN205377844U - MR measuring equipment signal reception system - Google Patents

Abstract

The utility model discloses a MR measuring equipment signal reception system, the output of receiver links to each other with the MR measurement information generater, and the output of MR measurement information generater links to each other with the transmitter, the transmitter includes first first detector, a band pass filter, second first detector, the 2nd band pass filter, the 2nd power amplifier, matching network, and first first detector output loops through a band pass filter, second first detector, the 2nd band pass filter, the 2nd power amplifier and matching network and links to each other with emit antenna, and the signal output part of third local oscillator unit and the local oscillator band pass filter 0 of second first detector are connected. The utility model discloses the transmitter adopts twice converter technique to modulate to separate with the up -conversion, carry out earlier the modulation on the lower intermediate frequency, then on moving the modulated signal up -conversion carrier frequency of transmission, the device is few, realizes simply, the power amplifier level adopts the power synthesis technology and the transmission line transformer of extensively application, and tuning range is wide, and power sum efficiency is all very big, the frequency band width.

Description

MR measurement device receiving system

Technical field

This utility model relates to a kind of MR measurement device receiving system.

Background technology

MR(MeasurementReport) measurement report is one of Main Basis of assessment wireless environment quality, MR refers to 470ms on information every 480ms(signaling channel on a traffic channel) send a secondary data, for gsm system, MR is the Main Means that network side obtains terminal wireless information, mainly comprises two parts: upward signal information and downstream signal information.Wherein, downstream signal information is measured by the network terminal and is gathered, and reports network by the MeasurementReport signaling of Um mouth；Upward signal information is measured by the BTS of network side and is gathered, and BTS reports BSC by MR after collecting up-downgoing metrical information.Descending measurement report should comprise: the level intensity of Serving cell, quality, the transmitting power that mobile phone is current, DTX behaviour in service, the signal intensity of six the strongest adjacent areas and BSIC etc.；Out-hole run information should comprise: the up level intensity of mobile phone, quality, the transmitting power that BTS is current, DTX behaviour in service, TA value.

The attainable function of MR includes: (1) coverage evaluating analysis: rendered by uplink and downlink signals intensity distributions, presents the weak blind area of the network coverage, not only objective and accurate, it is possible to save substantial amounts of time and resource, moreover it is possible to effectively find out network coverage problem in time.(2) Network Quality Analysis: under mass data supports, it is possible to complete the quality analysis of up-downgoing wireless network, it is possible to reflect the truth of this area the whole network speech quality.(3) area covered analysis: can find that the situation covering Lai Duiyue district, border of community is analyzed judging intuitively, it is prevented that signal disturbing is caused in other community, affects the speech quality of other community user, effectively optimize the wireless network architecture of this area.(4) network interferences analysis: the network interferences situation according to collecting carries out statistical analysis, for subsequent network adjustment, provides including power contorl parameters and frequency optimization, Neighborhood Optimization, coverage optimization etc. and supports.(5) traffic hot spot regional analysis: the comprehensive of being associated property of index such as traffic density, traffic distribution and resource utilization can be analyzed, thus formulating the accurate planning of capacity website and dilatation website.(6) hidden failure analysis: by MR data analysis, it is possible to search find out network exists hidden failure with carrier wave, provide clear and definite target for the network optimization.

MR measurement device is when measuring cordless communication network, receiver is first utilized to receive signal of communication, complete to forward signal of communication again through transmitter after MR measures, but, tradition MR measurement device reception Dynamic Range is narrow, spurious reduction weak effect, causing that MR measures accuracy and the poor reliability of initial data, transmitter adopts Direct Transform method, and tuning range is narrow.

Utility model content

The purpose of this utility model is in that to overcome the deficiencies in the prior art, it is provided that the ultra-short wave receiver that a kind of linearity is high, dynamic range is wider, spurious reduction is effective, improves MR and measures accuracy and the reliability of initial data；Adopting twice converter technique modulation and up-conversion to be separated, power amplifier level adopts line transformer to widen transmitter tuning range.

The purpose of this utility model is achieved through the following technical solutions: MR measurement device receiving system, including receiver, MR metrical information maker and transmitter, the outfan of receiver is connected with MR metrical information maker, and the outfan of MR metrical information maker is connected with transmitter；

Described receiver includes Channel Elements and the first local oscillator unit, Channel Elements includes the amplitude limiter for limiting input signal wave amplitude being sequentially connected with, the dynamic adjusting module of radio frequency for adjusting input signal amplitude, for by signal subsection the preselector suppressing image frequency signal, for amplifying the low-noise amplifier of signal amplitude, for filtering the first low pass filter of image frequency signal, for being mixed the intermediate frequency mixer producing intermediate-freuqncy signal, intermediate-frequency filter for intermediate-freuqncy signal filtering, for the intermediate frequency amplifier that intermediate-freuqncy signal is amplified, intermediate frequency attenuator for intermediate-freuqncy signal amplitude adjustment decay, for amplifying the first power amplifier of signal power and for filtering the second low pass filter of high-frequency signal；The signal output part of the first local oscillator unit is connected with the local oscillation signal input of intermediate frequency mixer；

Described transmitter includes the second local oscillator unit, first frequency mixer, first band filter, 3rd local oscillator unit, second frequency mixer, second band filter, second power amplifier, matching network and transmitting antenna, the input of the first frequency mixer is connected with baseband signal and the second local oscillator unit, the outfan of the first frequency mixer passes sequentially through the first band filter, second frequency mixer, second band filter, second power amplifier is connected with transmitting antenna with matching network, the signal output part of the 3rd local oscillator unit and the local oscillation signal input of the second frequency mixer connect.

The first described local oscillator unit includes the crystal oscillating circuit, Direct Digital Frequency Synthesizers, phase discriminator, the 3rd low pass filter, voltage controlled oscillator and the varactor doubler that are sequentially connected with, and the outfan of voltage controlled oscillator also passes sequentially through frequency divider and is connected with the input of phase discriminator with high pass filter.

The dynamic adjusting module of described radio frequency is made up of attenuator and amplifier, and attenuator selects two switches to be connected with the outfan of amplitude limiter with amplifier by one.

Described Direct Digital Frequency Synthesizers adopts AD9910, and phase discriminator adopts HMC440, and frequency divider adopts AD9858.

Described Channel Elements and the first local oscillator unit are divided in independent cavity.

The beneficial effects of the utility model are:

(1) ultrashort wave signals of reception 30～3000MHz can be stablized, signal passes through repeatedly frequency conversion, the intermediate frequency of 70MHz exports, the amplitude of intermediate frequency can stable in the scope required export, this ultra-short wave receiver has the features such as linearity height, dynamic range is wider, spurious reduction is effective, improves MR and measures accuracy and the reliability of initial data.

(2) Channel Elements and the first local oscillator unit are divided in independent cavity and further avoid signal cross-talk.

The low pass filter set up in (3) first local oscillator unit can effectively filter out the high-frequency signal that phase discriminator produces, and high pass filter can effectively filter out the image frequency signal that frequency divider produces.

(4) adopt the carrier frequency that voltage controlled oscillator is exported by phase-locked Frequency Synthesis Technique Controlled to carry out accurate lock, reach higher stability and accuracy.

(5) transmitter adopts twice converter technique modulation and up-conversion to be separated, and first carries out the modulation on relatively low intermediate frequency, then modulated signal up-conversion is moved on the carrier frequency launched, and device is few, it is achieved simple；Power amplifier level adopts the power synthetic technique and line transformer that extensively use, tuning range width, and power and efficiency are all very big, bandwidth.

Accompanying drawing explanation

Fig. 1 is this utility model structural representation；

Fig. 2 is this utility model receiver circuit structural representation；

Fig. 3 is this utility model transmitter circuitry structural representation；

Fig. 4 is this utility model the first local oscillator cellular construction schematic diagram.

Detailed description of the invention

Below in conjunction with accompanying drawing, the technical solution of the utility model is described in further detail, but protection domain of the present utility model is not limited to the following stated.

As it is shown in figure 1, MR measurement device receiving system, including receiver, MR metrical information maker and transmitter, the outfan of receiver is connected with MR metrical information maker, and the outfan of MR metrical information maker is connected with transmitter.

It is divided in independent cavity as in figure 2 it is shown, described receiver includes Channel Elements and the first local oscillator unit, described Channel Elements and the first local oscillator unit.Channel Elements includes the amplitude limiter for limiting input signal wave amplitude being sequentially connected with, the dynamic adjusting module of radio frequency for adjusting input signal amplitude, the dynamic adjusting module of described radio frequency is made up of attenuator and amplifier, and attenuator selects two switches to be connected with the outfan of amplitude limiter with amplifier by one.For by signal subsection the preselector suppressing image frequency signal, for amplifying the low-noise amplifier of signal amplitude, for filtering the first low pass filter of image frequency signal, for being mixed the intermediate frequency mixer producing intermediate-freuqncy signal, intermediate-frequency filter for intermediate-freuqncy signal filtering, for the intermediate frequency amplifier that intermediate-freuqncy signal is amplified, for the intermediate frequency attenuator of intermediate-freuqncy signal amplitude adjustment decay, for amplifying the first power amplifier of signal power and for filtering the second low pass filter of high-frequency signal；The signal output part of the first local oscillator unit is connected with the local oscillation signal input of intermediate frequency mixer.

As shown in Figure 3, described transmitter includes the second local oscillator unit, the first frequency mixer, the first band filter, the 3rd local oscillator unit, the second frequency mixer, the second band filter, the second power amplifier, matching network and transmitting antenna, and the second described power amplifier adopts line transformer.The input of the first frequency mixer is connected with baseband signal and the second local oscillator unit, the outfan of the first frequency mixer passes sequentially through the first band filter, the second frequency mixer, the second band filter, the second power amplifier are connected with transmitting antenna with matching network, and the signal output part of the 3rd local oscillator unit and the local oscillation signal input of the second frequency mixer connect.

As shown in Figure 4, the first described local oscillator unit includes the crystal oscillating circuit, Direct Digital Frequency Synthesizers, phase discriminator, the 3rd low pass filter, voltage controlled oscillator and the varactor doubler that are sequentially connected with, and the outfan of voltage controlled oscillator also passes sequentially through frequency divider and is connected with the input of phase discriminator with high pass filter.Described Direct Digital Frequency Synthesizers adopts AD9910, and phase discriminator adopts HMC440, and frequency divider adopts AD9858.

The above is only preferred implementation of the present utility model, it is to be understood that this utility model is not limited to form disclosed herein, it is not to be taken as the eliminating to other embodiments, and can be used for other combinations various, amendment and environment, and in contemplated scope described herein, can be modified by the technology of above-mentioned instruction or association area or knowledge.And the change that those skilled in the art carry out and change are without departing from spirit and scope of the present utility model, then all should in the protection domain of this utility model claims.

Claims (3)

1.MR measurement device receiving system, it is characterised in that: including receiver, MR metrical information maker and transmitter, the outfan of receiver is connected with MR metrical information maker, and the outfan of MR metrical information maker is connected with transmitter；

Described receiver includes Channel Elements and the first local oscillator unit, described Channel Elements and the first local oscillator unit and is divided in independent cavity, it is to avoid signal cross-talk；Channel Elements includes the amplitude limiter for limiting input signal wave amplitude being sequentially connected with, the dynamic adjusting module of radio frequency for adjusting input signal amplitude, for by signal subsection the preselector suppressing image frequency signal, for amplifying the low-noise amplifier of signal amplitude, for filtering the first low pass filter of image frequency signal, for being mixed the intermediate frequency mixer producing intermediate-freuqncy signal, intermediate-frequency filter for intermediate-freuqncy signal filtering, for the intermediate frequency amplifier that intermediate-freuqncy signal is amplified, intermediate frequency attenuator for intermediate-freuqncy signal amplitude adjustment decay, for amplifying the first power amplifier of signal power and for filtering the second low pass filter of high-frequency signal；The signal output part of the first local oscillator unit is connected with the local oscillation signal input of intermediate frequency mixer；The first described local oscillator unit includes the crystal oscillating circuit, Direct Digital Frequency Synthesizers, phase discriminator, the 3rd low pass filter, voltage controlled oscillator and the varactor doubler that are sequentially connected with, and the outfan of voltage controlled oscillator also passes sequentially through frequency divider and is connected with the input of phase discriminator with high pass filter；The 3rd low pass filter set up in first local oscillator unit can effectively filter out the high-frequency signal that phase discriminator produces, and high pass filter can effectively filter out the image frequency signal that frequency divider produces；

Described transmitter includes the second local oscillator unit, first frequency mixer, first band filter, 3rd local oscillator unit, second frequency mixer, second band filter, second power amplifier, matching network and transmitting antenna, the input of the first frequency mixer is connected with baseband signal and the second local oscillator unit, the outfan of the first frequency mixer passes sequentially through the first band filter, second frequency mixer, second band filter, second power amplifier is connected with transmitting antenna with matching network, the signal output part of the 3rd local oscillator unit and the local oscillation signal input of the second frequency mixer connect；The second described power amplifier adopts line transformer；Transmitter adopts twice converter technique modulation and up-conversion to be separated, and first carries out the modulation on relatively low intermediate frequency, then modulated signal up-conversion is moved on the carrier frequency launched, and device is few, it is achieved simple；Power amplifier level adopts power synthetic technique and line transformer, tuning range width, and power and efficiency are all very big, bandwidth.

2. MR measurement device receiving system according to claim 1, it is characterised in that: the dynamic adjusting module of described radio frequency is made up of attenuator and amplifier, and attenuator selects two switches to be connected with the outfan of amplitude limiter with amplifier by one.

3. MR measurement device receiving system according to claim 1, it is characterised in that: described Direct Digital Frequency Synthesizers adopts AD9910, and phase discriminator adopts HMC440, and frequency divider adopts AD9858.