KR100469431B1 - Method for transmitter power compensation - Google Patents

Abstract

The present invention relates to a CDMA wireless transmitter power compensation method, and more particularly to a transmitter power compensation method adapted to maintain the transmitter power irrespective of the operating temperature. In the conventional transmitter power compensation method, since the transmission power compensation table for each channel set based on the room temperature is applied to all operating temperatures, there is a problem that performance may be degraded at high or low temperatures. In consideration of such a problem, the present invention includes the steps of creating a plurality of channel-specific transmitter power compensation tables corresponding to a predetermined temperature range; Determining a temperature and a channel used by a CDMA transmitter and obtaining a compensation value from one of channel-specific transmitter power compensation tables for the temperature range based on the values; By using the transmitter power compensation method comprising the step of compensating the transmitter power to the reference value by using the obtained compensation value, there is an effect that the transmission power of the CDMA transmitter is optimally maintained regardless of the season or the weather used.

Description

Transmitter Power Compensation Method {METHOD FOR TRANSMITTER POWER COMPENSATION}

The present invention relates to a CDMA wireless transmitter power compensation method, and more particularly to a transmitter power compensation method adapted to maintain the transmitter power irrespective of the operating temperature.

The power varies according to the channel (operator) used by the CDMA wireless transmitter. To compensate for this, the compensation degree according to the channel frequency is referred to as a table. The compensation of the transmitter power for the channel frequency is set by the designer when developing the transmitter, and is made on the assumption that the CDMA wireless transmitter is used at room temperature (25 ° C).

The transmission power according to each channel is compared with the reference transmission power to prepare the compensation table with the difference value, and use the value to equalize the performance of the transmission unit for each channel. This uniformity maintains optimal transmitter performance.

The transmitter channel compensation criteria used at room temperature will be described with specific examples. FIG. 1 is an example of a compensation curve and a compensation table used in a current CDMA channel power compensation method, and a transmission power (dBm) curve for each transmitter channel (frequency) at room temperature (25 ° C.) and for each transmitter channel obtained through the same. The compensation table is shown.

The above curve shows power characteristics for each channel (frequency) of the transmitter of the mobile phone by using a power measuring instrument and a program for controlling the power measurement instrument of the mobile phone using the CDMA wireless transmitter.

The power of the CDMA transmitter used at room temperature shows nonlinearity having different values depending on channels. Therefore, because of this nonlinear characteristic, a compensation table rather than a predetermined equation is used, and the compensation values for adjusting the transmitter power of a specific channel as a reference value are stored in the compensation table.

In FIG. 1, the 25-channel transmission power is 15 dBm. The maximum value is 18 dBm in 200 channels. In this case, assuming that the optimal transmission power set by the designer is 17 dBm in consideration of power consumption, ambient conditions, and transmission efficiency, the inverse of the deviations to this value may be set as a compensation value. Therefore, 2dBm should be added because it is 15dBm in 25 channels, and 3dBm should be added because it is 14dBm in 550 channels. In the 250 channel, 17 dBm is the same as the reference value and there is no compensation value.

Current CDMA transmitters are configured to maintain a constant transmit power based on the per channel transmit power compensation table measured at room temperature. However, it should be noted that products using CDMA transmitters, such as cell phones, are used in a wide range of locations, and that the climate or operating temperature in the areas where they are used is not always constant. That is, it is not preferable to apply the compensation value measured at the room temperature (25 ° C.) to all the operating temperatures because the transmission power of the transmitter varies as much as the temperature between channels.

As described above, the conventional transmitter power compensation method has a problem that performance may be degraded at high or low temperatures because the transmission power compensation table for each channel set based on the room temperature is applied to all operating temperatures.

In view of the above problems, the present invention provides a transmitter power compensation method capable of maintaining an optimum transmitter power value by compensating transmitter power deviation according to temperature by applying a plurality of transmitter power compensation tables for each channel according to temperature. have.

1 is a conventional power compensation reference for each transmitter channel.

2 is a diagram for one embodiment of power compensation criteria for each transmitter channel at a high temperature used in the present invention.

3 is a diagram for one embodiment of power compensation criteria for each transmitter channel at low temperature used in the present invention.

The present invention for achieving the above object comprises the steps of preparing a transmitter power compensation table for each channel for the operating temperature range of the transmitter channel compensation values measured for a predetermined temperature region; Obtaining a compensation value by searching a transmitter power compensation table for each channel for the temperature range based on a temperature and a channel used by a CDMA transmitter; Compensating the power of the transmitter using the obtained compensation value.

The present invention as described above is described by using all of the transmitter channel compensation curves and the compensation tables shown in FIGS. 1 to 3 as an embodiment. It should be noted that the above figures are merely examples and that different compensation curves and compensation tables may be used depending on the type or type of CDMA transmitter being developed.

1 is a transmitter channel compensation curve and a compensation table measured at room temperature (25 ° C.), as described above, used to compensate transmitter power for room temperature, which is one of the transmitter channel compensation tables used in the present invention. Becomes

Comparing the compensation tables calculated according to the channel compensation curves of FIGS. 2 and 3 with FIG. 1 may realize the necessity of the present invention.

Figure 2 is a transmitter channel compensation curve and compensation table at high temperature, which is made here by measuring the CDMA radio transmitter at 50 ° C. That is, the CDMA wireless transmitter used in the summer becomes 50 ° C. or higher due to its own heat generation and external temperature, and the transmitter channel compensation curve at this time is different from the transmitter channel compensation curve at room temperature (25 ° C.) shown in FIG. It can be seen that they are completely different.

Naturally, the channel compensation curve and the compensation table at high temperature are not limited to a temperature of 50 ° C., but can be measured at an appropriate temperature intended by the designer, and may be made of several tables at predetermined intervals. If a CDMA radio transmitter is used in the tropics or in a hot climate, making the channel compensation table for higher temperatures more precise will allow the CDMA transmitter to maintain a more uniform optimal transmit power.

In order to confirm the necessity of the present invention, let us apply the transmitter channel compensation table of FIG. 1 to the transmit power of each channel of FIG. When 25 channels are used in a CDMA transmitter operating at 50 ° C., the compensation value based on the compensation table of FIG. 1 becomes +2 dBm. However, since the actual measured transmitter power in FIG. 2 is 22 dBm, the compensated value is 24 dBm, which is 7 dBm greater than the reference value of 17 dBm. If this is the case, you may be able to reduce power consumption by not compensating. This large transmit power of 24 dBm increases power consumption, increases heat generation by itself, and increases the possibility of interfering with other adjacent CDMA transmitters. In particular, in a CDMA transmitter used in a portable telephone, interference due to battery consumption and transmission signal strength may be a problem.

If 550 channels are used, the compensation value based on the compensation table of FIG. 1 is +3 dBm. However, since the actual measured transmitter power in FIG. 2 is 23 dBm, the compensated value is 26 dBm, which is 9 dBm greater than the reference value of 17 dBm. In addition, the above-mentioned problems appear to be worse.

If 200 channels are used, the compensation value is 18 dBm in the compensation curve of FIG. Becomes smaller. In this case, the transmission output becomes small, which degrades the call quality.

As described above, the performance of the CDMA transmitter used in the hot summer is deteriorated, so in order to use the CDMA transmitter at a high temperature, it is necessary to compensate the transmitter power through the transmitter channel compensation table using the transmitter channel compensation curve measured at a high temperature. desirable.

The compensation value of the transmitter channel compensation table shown in FIG. 2 is the inverse of the deviation such that the transmission power of each channel measured at 50 ° C. described above becomes a predetermined value (here, 17 dBm) determined by the designer, which in this embodiment It may be one of the compensation tables used.

3 shows a transmitter channel compensation curve and a compensation table at low temperature, which are made by measuring a CDMA wireless transmitter at -5 ° C. That is, it can be seen that the transmitter channel compensation curve for the CDMA wireless transmitter used in one winter is completely different from the transmitter channel compensation curve at room temperature (25 ° C.) shown in FIG.

Naturally, the channel compensation curve and the compensation table at low temperatures are not limited to a temperature of -5 ° C, but can be measured at an appropriate temperature intended by the designer, and may be made of several tables at predetermined intervals. If the CDMA radio transmitter is used in polar regions or in cold climates, making the channel compensation table for low temperatures more precise will allow the CDMA transmitter to maintain a more uniform optimal transmit power.

In order to confirm the necessity of the present invention, the transmitter channel compensation table of FIG. 1 is applied to the transmission power of each channel of FIG. 3. When 25 channels are used in a CDMA transmitter operating at -5 ° C, the compensation value based on the compensation table of FIG. 1 becomes +2 dBm. However, since the actual measured transmitter power in FIG. 3 is 18 dBm, the compensated value is 20 dBm, which is 3 dBm larger than the reference value of 17 dBm. That is, as described with reference to FIG. 2, power consumption is high, self heating is increased, and the possibility of interfering with another adjacent CDMA terminal is increased.

If 550 channels are used, the compensation value based on the compensation table of FIG. 1 is +3 dBm. However, since the actual measured transmitter power in FIG. 3 is 21 dBm, the compensated value is 24 dBm, which is 7 dBm larger than the reference value of 17 dBm. In addition, the above-mentioned problems appear to be worse.

If 200 channels are used, the compensation value is 18dBm in the compensation curve of FIG. Becomes smaller. In this case, the call quality deteriorates as described with reference to FIG. 2.

As described above, since the performance of the CDMA transmitter used in the cold winter is degraded, in order to use the CDMA transmitter at low temperatures, it is necessary to compensate the transmitter power of the transmitter through the transmitter channel compensation table using the transmitter channel compensation curve measured at a low temperature. desirable.

The compensation value of the transmitter channel compensation table shown in FIG. 3 is the inverse of the deviation such that the transmission power of each channel measured at −5 ° C. described above becomes a predetermined value (here, 17 dBm) determined by the designer, and this embodiment It can be one of the compensation tables used in.

In the present embodiment, after the three compensation tables are configured, the compensation table shown in FIG. 1 is used at room temperature, the compensation table shown in FIG. 2 is used at high temperature, and the compensation table shown in FIG. 3 is used at low temperature. As a result, the transmission power of each channel can be compensated as well as the deviation of the transmission power according to the temperature. Although only three compensation tables are used here, more precise compensation is possible by using a plurality of granular compensation tables.

In summary, after creating a plurality of transmitter channel compensation tables according to the operating temperature of the CDMA transmitter, and stores them in the memory provided in the CDMA transmitter. Then, by measuring the temperature at which the CDMA transmitter is used, selecting the corresponding table and obtaining the compensation for that frequency channel from the compensation table so that the transmit power is the reference transmit power, the transmit power of the CDMA transmitter is substantially uniform. Will be able to maintain. This power compensation method can be realized as software for a controller that controls a CDMA transmitter, and can also be implemented in logic or other similar form of hardware.

As described above, the present invention creates a transmitter channel compensation table for the CDMA transmitter for each preset temperature range, and then compensates the CDMA transmit power according to the use temperature and the channel, thereby reducing the transmit power of the CDMA transmitter regardless of the season or the use climate. This has the effect of maintaining optimality.

Claims (2)

Creating a transmitter power compensation table for each channel for the operating temperature region, using the transmitter channel compensation values measured for the predetermined temperature region; Obtaining a compensation value by searching a transmitter power compensation table for each channel for the temperature range based on a temperature and a channel used by a CDMA transmitter; Compensating the transmitter power by using the obtained compensation value. The method of claim 1, wherein the plurality of channel-specific transmitter power compensation tables corresponding to a predetermined temperature range are prepared based on transmitter channel compensation curves measured at low temperature, room temperature, and high temperature.