CN1507294A - Emitting power controlling method for GSM mobile terminal - Google Patents
Emitting power controlling method for GSM mobile terminal Download PDFInfo
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- CN1507294A CN1507294A CNA02155126XA CN02155126A CN1507294A CN 1507294 A CN1507294 A CN 1507294A CN A02155126X A CNA02155126X A CN A02155126XA CN 02155126 A CN02155126 A CN 02155126A CN 1507294 A CN1507294 A CN 1507294A
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Abstract
The emitting power controlling method for GSM mobile terminal includes the following steps: dividing the emitting power level of the mobile terminal into one or several logic sections; determining the starting and ending positions of the logic sections; storing the distribution data of the power level logic sections in memory and allocating memory space to store the frequency compensating lists for different power level logic sections; performing frequency compensation correction based on the section middle power level as reference beginning from the first logic section; performing frequency compensation correction of all the sections; writing the correction data into memory of the mobile station; and emitting in the power based on the allocated channel and ordered emitted power level. The method makes it possible to regulate the performance of emitter in mobile station to suit the change of GSM cellphone in frequency response with power and the parameter change of RF device.
Description
Technical field
The present invention relates to mobile communication technology, be specifically related to the transmit power controlling method of GSM mobile termination machine.
Background technology
In the GSM moving communicating field, in order to increase power system capacity, reduce the interference between the user, adopt power control techniques usually.In reverse link, power control is meant that the control travelling carriage sends signal with suitable power.Therefore, to have complete power control techniques be very important to the operate as normal of whole communication system to gsm mobile telephone.Mobile phone is the power of its transmitting power of control accurately, makes it to meet the GSM code requirement.Basic way is: the signal power level that base station notice travelling carriage should send, travelling carriage is searched from memory according to the channel of power grade and distribution and is calculated corresponding power control factor, and the frequency compensation factor of this channel, and utilize this power control factor and frequency compensation factor control radio-frequency transmissions, thereby realize power control.
Because the discreteness of mobile phone radio-frequency devices, the power control factor of equal-wattage grade may be different in each travelling carriage memory, in the process of producing, need the power control factor of each mobile phone is calibrated, and calibration data is write in the memory of travelling carriage.
Selection at power control factor has following several at present:
Solution one
The corresponding power control factor of each power grade is as the criterion with intermediate frequency in research and development and production process and calibrates.Different channels all has the frequency compensation factor of oneself, and the shared frequency compensation factor of same channel different capacity grade no longer changes after frequency compensation factor is adjusted in R﹠D process.Power control factor, frequency compensation factor combine and determine the final transmitting power of travelling carriage.
The shortcoming of this scheme is that all travelling carriage transmitter frequency responses of requirement are consistent, and the travelling carriage transmitter is consistent in the response of different transmission power situation lower frequency.Otherwise impotentia is adjusted.
Solution two
The corresponding power control factor of each power grade is as the criterion with intermediate frequency in research and development and production process and calibrates.Different channels all has the frequency compensation factor of oneself, and the shared frequency compensation factor of same channel different capacity grade all needs to calibrate in research and development and production process medium frequency compensating factor.Power control factor, frequency compensation factor combine and determine the final transmitting power of travelling carriage.
It is consistent in the response of different transmission power situation lower frequency that the shortcoming of this scheme is a requirement travelling carriage transmitter, if inconsistent then impotentia is adjusted.
Actual conditions are: the solution of various GSM mobile handset is when design, the frequency response of travelling carriage transmitter is often not steady, and in case produce in batches, the otherness of this frequency response shows certain stability again in each mobile phone: promptly the difference of the frequency response that shows with a collection of mobile phone is identical.
Summary of the invention
The technical problem to be solved in the present invention is: not steady at the response of travelling carriage transmitter frequency, especially the situation lower frequency in different transmission power is responded the GSM travelling carriage that has than mistake, a kind of control method of GSM mobile termination machine transmitting power is provided, solve during the research and development and during producing in enormous quantities transmission power of mobile station adjust problem, can overcome the transmission power of mobile station grade when different frequency response differ bigger problem; Make adjusted travelling carriage at different channels, the transmitting power on each power grade can both meet the code requirement of GSM.
Technical scheme provided by the invention is: a kind of GSM mobile termination machine transmit power controlling method is provided, may further comprise the steps:
According to the self character of GSM travelling carriage transmitter, the emitting power grade of mobile phone is divided into one or more logical segments;
Determine the original position and the final position of each logical segment;
Deposit power grade logical segment distribute data in memory, the storage allocation space is to deposit the frequency compensation table on each power grade logical segment simultaneously;
Since the 1st logical segment, the middle power grade of choosing logical segment is that benchmark carries out the frequency compensation calibration;
In producing calibration procedure, a plurality of power grade logical segments of transmitter are carried out a frequency compensation calibration respectively;
Above-mentioned calibration data is write in the memory of travelling carriage;
When the transmitter emission of travelling carriage, according to the channel of base station assigns and the emitting power grade of order, readout power controlling elements and correspondent frequency compensating factor are launched desired power from memory.
In above-mentioned transmit power controlling method, deposit the following data relevant in the described memory: the initial power grade of logical segment number, each logical segment with transmission power calibration; Each power grade power factor; Frequency compensation table on a plurality of logical power sections.
In above-mentioned transmit power controlling method, the GSM band transmit power grade of described mobile phone is divided into three logical segments, and the frequency band power grade can be 5~9,10~15,16~19 3 logical segments.
In above-mentioned transmit power controlling method, the GSM band transmit power grade of described mobile phone is divided into three logical segments, and the power grade of three frequency ranges can be 5,6~15,16~19 3 logical segments.
Implement transmit power controlling method provided by the invention, have following advantage: can effectively adjust the travelling carriage transmitter performance at the frequency response of radio frequency sending set with the inconsistent GSM mobile handset of variable power.Problem that other parameters that cause can not reach the GSM standard also can solve for original power is higher or on the low side.Can adapt to the variation of radio-frequency devices parameter, improve the productibility of travelling carriage.
Description of drawings
Fig. 1 is the block diagram of the inventive method;
Fig. 2 is the power-frequency relation figure of DCS frequency range the 0th power grade (maximum power level);
Fig. 3 is the power-frequency relation figure of DCS frequency range the 15th power grade (minimum power level);
Fig. 4 is the graph of a relation that adopts DCS frequency range the 0th power grade power (maximum power) and frequency after this method;
Fig. 5 is the graph of a relation that adopts DCS frequency range the 15th power grade power (minimum power) and frequency after this method.
Embodiment
As shown in Figure 1, be example explanation this method with the 900M frequency range:
According to the self character of GSM travelling carriage transmitter, emitting power grade is divided into n logical segment, can change according to actual conditions at development n, after waiting to stablize, can select the value of an optimum to be fixed up.(following explanation is example with n=3).
The distribution that the logical segment initial sum stops section is adjustable, but the number that whole logical segment is cut apart must with (1) in the n that carried be consistent.(for example: GSM frequency band power grade can be divided into 5 ~ 9,10 ~ 15,16 ~ 19 3 logical segments; Also can be divided into 5,6 ~ 15,16 ~ 19 3 multiple division methods such as logical segment).
On different logical power sections, use different frequency compensations.It is the frequency compensation table difference of different logical power section correspondence.
To deposit the following data relevant with transmission power calibration in memory: power grade logical segment allocative decision comprises the initial power grade of logical segment number n, each logical segment; Each power grade power control factor; Frequency compensation table on n logical power section.
For dual-band mobile phone, DCS1800 also adopts same algorithm.
The n value get fixed and which power grade branch in same logical segment, this depends primarily on the frequency response characteristic unanimity of which continuous power grade of travelling carriage, consistent be placed on same logical segment, inconsistently then be divided into different logical segment, final n value also can be decided.Travelling carriage different capacity grade lower frequency response difference is few more, and then the value of n is more little, optimal state n=1; Difference is big more, and then the value of n is big more.
By after the above-mentioned steps, when producing product, to carry out the frequency compensation calibration, method is as follows:
According to n the power grade logical segment that mobile station side provides, produce calibration procedure and will on n power grade logical segment, carry out one time frequency compensation respectively.The power grade of choosing is the intermediate grade of this logical segment.Calibration data writes in the travelling carriage memory.
Because there is property in batches in travelling carriage RF performance difference, in actual production process, change at production material, as RF device production producer, when batch changing, divide by adjusting power grade logical segment, the compensation calibration selection etc. of adjusting frequency can adapt to because the frequency response change that device difference is brought.
DCS band transmit power with a travelling carriage is that example further specifies the present invention below:
The shared frequency compensation factor of same channel different capacity grade, frequency compensation factor are that benchmark is calibrated with the 7th power grade, and the transmitting power that the mobile phone for measuring after then calibrating arrives as shown in Table 1.
| Lattice | ||||||||
| 9 | ??12.3 | ??12.2 | ??12.2 | ??12.1 | ??12.1 | ??12.0 | ??12.0 | Index is qualified |
| 10 | ??10.3 | ??10.2 | ??10.1 | ??10.0 | ??10.1 | ??10.2 | ??10.2 | Index is qualified |
| 11 | ??8.0 | ??8.0 | ??7.9 | ??7.9 | ??8.0 | ??8.0 | ??8.1 | Index is qualified |
| 12 | ??5.8 | ??5.9 | ??5.9 | ??6.1 | ??6.3 | ??6.4 | ??6.5 | Index is qualified |
| 13 | ??3.5 | ??3.7 | ??3.9 | ??4.2 | ??4.4 | ??4.5 | ??4.7 | Index is qualified |
| 14 | ??1.1 | ??1.5 | ??1.9 | ??2.4 | ??2.8 | ??3.2 | ??4.0 | Index is qualified |
| 15 | ??-0.5 | ??0.3 | ??0.6 | ??1.1 | ??1.6 | ??2.4 | ??3.1 | 512,885 power-temporal envelope exceeds standard |
Table one
Can find from table one:
1. in 0 ~ 10 power grade, the power of low channel is higher, and the power of high channel is on the low side.
2. in 11 ~ 15 power grades, the power of low channel is on the low side, and the power of high channel is higher.
3. because the tolerance limit of peak power grade (the 0th power grade) transmitting power is relatively stricter
(30±2dBm)。Though this transmission power of mobile station meets the requirements, be in very and face
The position on boundary.In high low temperature test, may exceed standard.
4. because the 0th power grade 512 channel powers are higher, cause transmitter power amplifier
Saturated, travelling carriage switch spectrum exceeds standard.
5. on the low side owing to the 15th power 512 channel powers, power-temporal envelope (POWER RAMP)
The rising edge peace is smooth.
Wherein, the power-frequency relation figure of the 0th power grade (maximum power level) as shown in Figure 2; Power-the frequency relation figure of the 15th power grade (minimum power level) as shown in Figure 3; Power difference when not doing sectional calibration as can be seen from Fig. 2, Fig. 3 between same power grade different channels is bigger, and frequency response is very inconsistent.
In this case, use single transmitting power frequency compensation, promptly all channels (0 ~ 15) are used same set of parameter, can not overcome the above problems.
Adopt control method of the present invention, 16 power grades of DCS frequency range are divided into two logical segments, 0 ~ 10 is the first order, and 11 ~ 15 is the second level, i.e. n=2.Two logical segments are carried out frequency compensation with different frequency compensation factors respectively.After calibration, the power that measures as shown in Table 2.
| 0 | ????29.4 | ???29.4 | ????29.5 | ????29.6 | ????29.6 | ????29.3 | ????29.2 | Index is qualified |
| 1 | ????28.0 | ???28.0 | ????28.2 | ????28.2 | ????28.2 | ????28.3 | ????28.3 | Index is qualified |
| 2 | ????26.4 | ???26.4 | ????26.3 | ????26.3 | ????26.3 | ????26.0 | ????25.8 | Index is qualified |
| 3 | ????24.3 | ???24.2 | ????24.2 | ????24.0 | ????24.0 | ????24.1 | ????24.1 | Index is qualified |
| 4 | ????22.0 | ???22.0 | ????22.0 | ????21.9 | ????22.0 | ????22.0 | ????22.1 | Index is qualified |
| 5 | ????20.2 | ???20.2 | ????20.1 | ????20.1 | ????20.1 | ????20.2 | ????20.2 | Index is qualified |
| 6 | ????18.1 | ???18.1 | ????18.2 | ????18.2 | ????18.2 | ????18.3 | ????18.3 | Index is qualified |
| 7 | ????16.2 | ???16.2 | ????16.0 | ????16.0 | ????16.1 | ????16.1 | ????16.1 | Index is qualified |
| 8 | ????14.2 | ???14.2 | ????14.2 | ????14.1 | ????14.1 | ????14.0 | ????13.8 | Index is qualified |
| 9 | ????12.0 | ???12.0 | ????12.0 | ????12.1 | ????12.1 | ????12.1 | ????12.3 | Index is qualified |
| 10 | ?9.9 | ?9.9 | ?9.9 | ?10.0 | ?10.2 | ?10.4 | ?10.4 | Index is qualified |
| 11 | ?8.2 | ?8.0 | ?7.9 | ?7.9 | ?7.8 | ?7.8 | ?7.6 | Index is qualified |
| 12 | ?6.2 | ?6.2 | ?6.2 | ?6.0 | ?6.1 | ?6.3 | ?6.3 | Index is qualified |
| 13 | ?4.2 | ?4.2 | ?4.2 | ?4.1 | ?4.2 | ?4.2 | ?4.3 | Index is qualified |
| 14 | ?3.0 | ?3.0 | ?3.0 | ?2.8 | ?2.9 | ?2.9 | ?3.1 | Index is qualified |
| 15 | ?1.4 | ?1.4 | ?1.3 | ?1.1 | ?1.2 | ?1.6 | ?1.8 | Index is qualified |
Table two
Wherein, the graph of a relation of the 0th power grade power (maximum power) and frequency as shown in Figure 4; The graph of a relation of the 15th power grade power (minimum power) and frequency as shown in Figure 5.The frequency compensation value of logical segment 0-10 power grade (is benchmark with the 4th power grade) as shown in Table 3.
| | 512 | ?574 | ?636 | ?698 | ?760 | ?822 | ?885 |
| The frequency compensation value | 32360 | ?32573 | ?32690 | ?32768 | ?33543 | ?34152 | ?34368 |
Table three
The frequency compensation value of logical segment 11-15 power grade (is benchmark with the 13rd power grade) as shown in Table 4.
| | 512 | ?574 | ?636 | ?698 | ?760 | ?822 | ?885 |
| The frequency compensation value | 33168 | ?32968 | ?32768 | ?32768 | ?32768 | ?32573 | ?32356 |
Table four
Under same channel situation, owing to for high power and low-power provide different frequency compensation values, therefore solved existing problem in the table one effectively, as can be seen, Fig. 3 and Fig. 5 are obviously many gently than Fig. 2 and Fig. 4 from Fig. 2-Fig. 5.
In 0 ~ 10 power grade, the frequency compensation of low channel gets less, and the frequency compensation value of high channel is bigger.Therefore final whole frequency power ratio is more smooth.
In the 11-15 power grade, the frequency compensation of low channel must be bigger, and the frequency compensation value of high channel is less.Therefore final whole frequency power ratio is more smooth.
The problem that can not reach the GSM standard owing to original higher or on the low side other parameters that cause of power is also solved.
Claims (5)
1, a kind of GSM mobile termination machine transmit power controlling method is characterized in that, may further comprise the steps:
According to the self character of GSM travelling carriage transmitter, the emitting power grade of mobile phone is divided into one or more logical segments;
Determine the original position and the final position of each logical segment;
Deposit power grade logical segment distribute data in memory, the storage allocation space is to deposit the frequency compensation table on each power grade logical segment simultaneously;
Since the 1st logical segment, the middle power grade of choosing logical segment is that benchmark carries out the frequency compensation calibration;
In producing calibration procedure, a plurality of power grade logical segments of transmitter are carried out a frequency compensation calibration respectively;
Above-mentioned calibration data is write in the memory of travelling carriage;
When the transmitter emission of travelling carriage, according to the channel of base station assigns and the emitting power grade of order, readout power controlling elements and correspondent frequency compensating factor are launched desired power from memory.
2, according to the described transmit power controlling method of claim 1, it is characterized in that, deposit the following data relevant in the described memory: the initial power grade of logical segment number, each logical segment with transmission power calibration; Each power grade power factor; Frequency compensation table on a plurality of logical power sections.
3, according to claim 1 or 2 described transmit power controlling methods, it is characterized in that, the emitting power grade of described mobile phone is divided into n logical segment, the n value get fixed and which power grade branch in same logical segment, this depends primarily on which continuous frequency response characteristic unanimity of travelling carriage, consistent be placed on same logical segment, inconsistently then be divided into different logical segment, final n value also can be decided.Can be divided into three logical segments as the GSM frequency range, power grade can be 5~9, and 10~15,16~19.
According to claim 1 or 2 described transmit power controlling methods, it is characterized in that 4, the emitting power grade of described mobile phone GSM frequency range is divided into three logical segments, the power grade original position and the final position of three logical segments can be 5,6~15,16~19.
According to claim 1 or 2 described transmit power controlling methods, it is characterized in that 5, the DCS band transmit power grade of described mobile phone is divided into two logical segments, the original position and the final position of the power grade of two logical segments can be 0 ~ 10,11 ~ 15.
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| CN 02155126 CN1286335C (en) | 2002-12-10 | 2002-12-10 | Emitting power controlling method for GSM mobile terminal |
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| CN 02155126 CN1286335C (en) | 2002-12-10 | 2002-12-10 | Emitting power controlling method for GSM mobile terminal |
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| CN1286335C CN1286335C (en) | 2006-11-22 |
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100385807C (en) * | 2004-07-08 | 2008-04-30 | 乐金电子(中国)研究开发中心有限公司 | Mobile communication terminal with reverse output power setting function |
| CN1972149B (en) * | 2006-12-18 | 2010-05-26 | 北京中星微电子有限公司 | Production calibration method and apparatus for TD-SCDMA radio frequency power amplifier |
| CN101741803B (en) * | 2009-12-24 | 2012-08-22 | 中国科学技术大学 | Multi-band frequency spectrum aggregating wireless transmitter-receiver device |
| CN101499807B (en) * | 2008-02-01 | 2013-08-07 | 深圳富泰宏精密工业有限公司 | Self-calibration system and method for mobile phone power |
| CN106604302A (en) * | 2016-11-28 | 2017-04-26 | 捷开通讯(深圳)有限公司 | Terminal power calibration method |
| WO2019101012A1 (en) * | 2017-11-27 | 2019-05-31 | 捷开通讯(深圳)有限公司 | Method and device for power calibration, and computer readable storage device |
| CN113922893A (en) * | 2021-09-29 | 2022-01-11 | 展讯通信(深圳)有限公司 | GSM radio frequency front end power calibration method and device |
-
2002
- 2002-12-10 CN CN 02155126 patent/CN1286335C/en not_active Expired - Fee Related
Cited By (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100385807C (en) * | 2004-07-08 | 2008-04-30 | 乐金电子(中国)研究开发中心有限公司 | Mobile communication terminal with reverse output power setting function |
| CN1972149B (en) * | 2006-12-18 | 2010-05-26 | 北京中星微电子有限公司 | Production calibration method and apparatus for TD-SCDMA radio frequency power amplifier |
| CN101499807B (en) * | 2008-02-01 | 2013-08-07 | 深圳富泰宏精密工业有限公司 | Self-calibration system and method for mobile phone power |
| CN101741803B (en) * | 2009-12-24 | 2012-08-22 | 中国科学技术大学 | Multi-band frequency spectrum aggregating wireless transmitter-receiver device |
| CN106604302A (en) * | 2016-11-28 | 2017-04-26 | 捷开通讯(深圳)有限公司 | Terminal power calibration method |
| CN106604302B (en) * | 2016-11-28 | 2020-11-13 | 捷开通讯(深圳)有限公司 | Power calibration method of terminal |
| WO2019101012A1 (en) * | 2017-11-27 | 2019-05-31 | 捷开通讯(深圳)有限公司 | Method and device for power calibration, and computer readable storage device |
| CN113922893A (en) * | 2021-09-29 | 2022-01-11 | 展讯通信(深圳)有限公司 | GSM radio frequency front end power calibration method and device |
| WO2023051241A1 (en) * | 2021-09-29 | 2023-04-06 | 展讯通信(深圳)有限公司 | Method and apparatus for calibrating power of gsm radio frequency front end |
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| CN1286335C (en) | 2006-11-22 |
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