RU2463738C1 - Method and apparatus for adjusting power gain factors of code channels in td-scdma system - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: method and apparatus for adjusting power gain factors of code channels in a TD-SCDMA system are provided. The method involves determining the number of transmission code channels in the uplink transmission sub-system; determining power gain factor of data in each code channel and performing standard multi-bit quantisation of that factor; determining the power gain factor of the midamble code in each code channel and performing standard multi-bit quantisation of that factor. The apparatus includes an estimation module, a first power gain factor determining module, a first quantisation module, a second power gain factor determining module and a second quantisation module.

EFFECT: invention resolves the problem of complexity of digital realisation during specific hardware design caused by the value of power gain factor being a decimal fraction and can be easily applied to specific hardware design and realisation.

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Description

FIELD OF TECHNOLOGY

This invention relates to a wireless communication technology and, in particular, to a method for adjusting power gains for code channels in a TD-SCDMA (Time Division Synchronous Code Division Multiple Access) system.

BACKGROUND

In the TD-SCDMA system, uplink transmission requires processing of a physical channel, including spectrum spreading, scrambling, code channel combining, pulse shape filtering, etc., after processing the channel at the transport level, and subsequent transmission using carriers. The TD-SCDMA standard defines that uplink transmission can be divided into at least two code channels, the uplink transmission subsystem must first perform spreading and scrambling for each channel, and the code channel combination must be performed for two sequences uplink transmission after spreading and scrambling before being fed to the transmission filter.

The TD-SCDMA standard describes only the general steps for processing a physical channel in uplink transmission. Figure 1, which illustrates the combination of different code channels in the uplink transmission subsystem of the TD-SCDMA system defined in the current standard, it can be seen that during adjustment of the transmit power the uplink transmission subsystem first configures the transmitted signal powers of the two code channels, respectively , then multiplies each of the transmitted signals after the power configuration by the gain coefficient γ in terms of the power of its code channel and performs the combination of code channels for transmitting Mykh signals of two code channels and the multiplication of the transmitted combined signal into a quantized value of β _j power amplification ratio. The table below shows the correspondence between the spreading factors (SF) for the DPCH (Dedicated Physical Channel) and the values of the power gains γ as defined in the current standard:

SF channel DPCH γ 16 1/4 8

four 1/2 2

one one

The network side may inform the user equipment (UE, user equipment) of the signal value β _j of the power gain ratio. The quantized values of β _j are shown in the following table. If the quantized values β _j are calculated by the UE by referring to the TFC (Transport Format Combination), then β _{j is} not limited to these quantized values.

Signaled value β _j The quantized value β _j fifteen 16/8 fourteen 15/8 13 14/8 12 13/8 eleven 12/8 10 11/8 9 10/8 8 9/8 7 8/8 6 7/8 5 6/8 four 5/8 3 4/8 2 3/8 one 2/8 0 1/8

Since the value of the power gain coefficient γ defined in the current standard is decimal, its digital implementation in specific hardware is difficult.

SUMMARY OF THE INVENTION

The present invention provides a method for adjusting the power gain for code channels in an uplink transmission subsystem of a TD-SCDMA system, in which standard multi-bit quantization of power gain is performed for data (DATA) and midamble code in the code channel, for convenient use in the specific development and implementation of hardware.

The technical solution of the present invention is as follows.

A method for adjusting power gains for code channels in a TD-SCDMA system includes:

A. determining the number of code transmission channels in the uplink transmission subsystem;

B. determining a power gain for the data in each code channel and performing standard multi-bit quantization of this power gain; and

C. determining the power gain for the midamble code in each code channel and performing standard multi-bit quantization of this power gain.

In addition, if there is only one code transmission channel in the uplink transmission subsystem, then the power gain for the data in this code channel is 1;

, а коэффициент DataScale₂ усиления по мощности для данных во втором кодовом канале равен

, где SF₁ - коэффициент расширения спектра для первого кодового канала, a SF₂ - коэффициент расширения спектра для второго кодового канала.if there are two code transmission channels in the uplink transmission subsystem, then DataScale ₁ power gain for the data in the first code channel is

, and the DataScale ₂ power gain for the data in the second code channel is

where SF ₁ is the spreading coefficient for the first code channel, and SF ₂ is the spreading coefficient for the second code channel.

In addition, in step B, a 14-bit quantized power gain value for the data in the code channel is obtained by multiplying this power gain by 2 ¹⁴ .

In addition, if there is only one transmission code channel in the uplink transmission subsystem, then the power gain for the midamble code in this code channel is equal to the power gain for the data in this code channel;

if there are two code transmission channels in the uplink transmission subsystem and these two code transmission channels use different offsets of the midamble code, then the power gain for the midamble code in the first code channel is equal to the power gain for the data in the first code channel, and the coefficient the power gain for the midamble code in the second code channel is equal to the power gain for the data in the second code channel;

.if there are two code transmission channels in the uplink transmission subsystem and these two code transmission channels use the same midamble code offset, then the power gains for the midamble codes in the two code transmission channels are

.

In addition, in step C, a 14-bit quantized power gain value for the midamble code in the code channel is obtained by multiplying this power gain by 2 ¹⁴ .

A device for adjusting the power gain for code channels in the TD-SCDMA uplink transmission subsystem comprises an evaluation module, a first power gain determination module, a first quantization module, a second power gain determination module and a second quantization module, wherein

an evaluation module is configured to determine the number of code transmission channels in an uplink transmission subsystem;

a first power gain determination module is configured to determine a power gain for data in each code channel;

the first quantization module is configured to perform standard multi-bit quantization of said power gain for data in a code channel;

a second power gain determination module is configured to determine a power gain for the midamble code in each code channel;

the second quantization module is configured to perform standard multi-bit quantization of said power gain for the midamble code in the code channel.

The technical solution of the present invention provides a method for configuring channel power for one code channel and two code channels in an uplink transmission subsystem, in which standard multi-bit quantization of power gains is performed for data (DATA) and midamble code in the code channel for solving the problem of the complexity of digital implementation in a specific hardware development, due to the fact that in the current standard the value of the gain in power awy is decimal; Thus, this method can be easily applied in a specific design and implementation of hardware.

BRIEF DESCRIPTION OF THE DRAWINGS

1 illustrates the combination of various code channels in an uplink transmission subsystem of a TD-SCDMA system defined in the current standard.

2 is a flowchart of a method for adjusting power gains for code channels in a TD-SCDMA system in accordance with the present invention.

FIG. 3 is a block diagram of a device for adjusting power gains for code channels in a TD-SCDMA system in accordance with the present invention.

PREFERRED EMBODIMENTS FOR CARRYING OUT THE INVENTION

The uplink packet transmission sequence in the TD-SCDMA system contains two parts: data and a midamble code, and the power configuration implementations for these two parts have some differences. The main technical concept of the present invention is to perform standard multi-bit quantization of power gains, respectively, for data and a midamble code in a code channel, for convenient use in a specific development and implementation of hardware, which solves the problem of the complexity of digital implementation in a specific hardware development, caused by that the power gain value is decimal.

A specific implementation of the present invention will be described in more detail below with reference to the drawings.

According to figure 2, which presents a flowchart of a method for adjusting power gains for code channels in a TD-SCDMA system, in accordance with the present invention, the main steps of the method are as follows:

step 10, determining the number of code transmission channels in the uplink transmission subsystem;

step 11, determining a power gain for the data in each code channel.

и

.If the spreading coefficients used in the two code channels are equal to SF ₁ and SF ₂ , respectively, then the values of their respective weighted power gain λ are equal

and

.

Let the power gain for the data in each code channel satisfy the following expressions:

и DataScale₁+DataScale₂=1, где DataScale₁ - коэффициент усиления по мощности для данных в первом кодовом канале и DataScale₂ - коэффициент усиления по мощности для данных во втором кодовом канале.

and DataScale ₁ + DataScale ₂ = 1, where DataScale ₁ is the power gain for data in the first code channel and DataScale ₂ is the power gain for data in the second code channel.

By computing we can get:

if there is only one code transmission channel in the uplink transmission subsystem, then DataScale ₁ = 1 and DataScale ₂ = 0;

и

if there are two code transmission channels in the uplink transmission subsystem, then

and

Step 12, performing standard multi-bit quantization of the power gain for the data in each code channel.

In accordance with the possible values of DataScale ₁ and DataScale _2, the power gain for the data in the code channel is multiplied by 2 ¹⁴ to obtain a 14-bit quantized power gain for the data. Quantized values are shown in the following table:

Index Datascale Hexadecimal quantized value 0

0 × 10B7 one

0 × 1555 2

0 × 1A82 3

0 × 2000 four

0 × 257D 5

0 × 2AAA 6

0 × 2F48 7 one 0 × 3FFF

Step 13, determining a power gain for the midamble code in each code channel.

To avoid a stepwise change in transmit power in the same packet transmission sequence, the power gain for the midamble code is equal to the power gain for the data if only one code channel is used in the uplink transmission; that is, the power gain for the midamble code will be 1.

In the case of two code channels, the calculation of the power gain for the midamble code in each code channel must be divided into the following two situations.

The first situation: if two code channels use different offsets of the midamble code, then the superposition of power for the midamble code is carried out in the same way as the superposition of power for data; therefore, it is only necessary to ensure that the gain in the main frequency band for the midamble code matches the gain for the data in each code channel; that is, the power gain of the data code can be directly applied to the corresponding midamble code, namely:

и

and

The second situation: if two code channels use the same midamble code offset, then the sum of powers in the main frequency band for the midamble code in two code channels is (MidambleScale ₁ + MidambleScale ₂ ) ² ; to bring it into line with the total amount of power in the main frequency band for the data (DataScale ₁ ² + DataScale ₂ ² ), the power gain for the midamble code must be set in accordance with the following expression:

Step 14, performing standard multi-bit quantization of the power gain for the midamble code in each code channel.

In accordance with the possible values of MidambleScale ₁ and MidambleScale ₂ , the power gain for the midamble code in the code channel is multiplied by 2 ¹⁴ to obtain a 14-bit quantized value of the power gain for the midamble code. The specific quantized values are shown in the following table:

Index Midamblescale Hexadecimal quantized values 0

0 × 3226 one

0 × 2FB3 2

0 × 2DEA 3

0 × 2D41

In accordance with the above method, the present invention also provides an apparatus for adjusting power gains for code channels in a TD-SCDMA system. 3, which shows a block diagram of a device for adjusting power gain for code channels in a TD-SCDMA system in accordance with the present invention, this device includes an evaluation module, a first power gain determination module, a first quantization module, and a second module determining a power gain and a second quantization module, wherein:

an estimation module is used to determine the number of code transmission channels in the uplink transmission subsystem.

, а коэффициент DataScale₂ усиления по мощности для данных во втором кодовом канале равен

, где SF₁ - коэффициент расширения спектра для первого кодового канала, a SF₂ - коэффициент расширения спектра для второго кодового канала.A first power gain determination module is used to determine a power gain for data in each code channel; if there is only one code channel for transmission in the uplink transmission subsystem, then the power gain for the data in this code channel is 1; if there are two code transmission channels in the uplink transmission subsystem, then DataScale ₁ power gain for the data in the first code channel is

, and the DataScale ₂ power gain for the data in the second code channel is

where SF ₁ is the spreading coefficient for the first code channel, and SF ₂ is the spreading coefficient for the second code channel.

The first quantization module is used to multiply the power gain for the data in the code channel by 2 ¹⁴ to obtain a 14-bit quantized value of the power gain for the data.

The second power gain coefficient determination module is used to determine the power gain for the midamble code in each code channel; if there is only one code transmission channel in the uplink transmission subsystem, then the power gain for the midamble code in this code channel is equal to the power gain for the data in this code channel; if there are two code transmission channels in the uplink transmission subsystem and these two code transmission channels use different offsets of the midamble code, then the power gain for the midamble code in the first code channel is equal to the power gain for the data in this code channel, and the coefficient the power gain for the midamble code in the second code channel is equal to the power gain for the data in this code channel; if there are two code transmission channels in the uplink transmission subsystem and these two code transmission channels use the same midamble code offset, then the power gains for the midamble codes in the two transmitted code channels are

The second quantization module is used to multiply the power gain for the midamble code in the code channel by 2 ¹⁴ to obtain a 14-bit quantized value of the power gain for the midamble code.

For other details of a specific implementation of the device of the present invention, which will not be repeated here, you should refer to the above description of the method according to the present invention.

Obviously, specialists can make any changes and modifications within the scope of this invention. Therefore, if these changes and modifications of the present invention are within the scope of the claims and equivalent methods, then the present invention includes such changes and modifications.

INDUSTRIAL APPLICABILITY

The technical solution of the present invention provides a method for configuring channel power for one code channel and two code channels in an uplink transmission subsystem of a TD-SCDMA system in which standard multi-bit quantization of power gains is performed for data (DATA) and midamble code, respectively in the code channel to solve the problem of the complexity of digital implementation in a specific hardware development, due to the fact that in the current standard the value of the gain i is decimal in power; Thus, this method can be easily applied in a specific design and implementation of hardware.

Claims (6)

1. A method for adjusting power gain for code channels in an uplink transmission subsystem of a time and synchronous code division multiple access (TD-SCDMA) multiple-access system, including:
A) determining the number of code transmission channels in the uplink transmission subsystem;
B) determining the power gain for the data in each code channel and performing standard multi-bit quantization of this power gain; and
C) determining the power gain for the midamble code in each code channel and performing standard multi-bit quantization of this power gain. 2. The method according to claim 1, in which if there is only one code channel for transmission in the uplink transmission subsystem, then the power gain for the data in this code channel is 1;
if there are two code transmission channels in the uplink transmission subsystem, then DataScale ₁ power gain for the data in the first code channel is

,
and the DataScale ₂ power gain for the data in the second code channel is

,
where SF ₁ is the spreading coefficient for the first code channel, and SF ₂ is the spreading coefficient for the second code channel. 3. The method according to claim 1 or 2, wherein in step B, a 14-bit quantized value of the power gain for the data in the code channel is obtained by multiplying this power gain by 2 ¹⁴ . 4. The method according to claim 2, in which if there is only one code channel for transmitting in the uplink transmission subsystem, then the power gain for the midamble code in this code channel is equal to the power gain for data in this code channel; if there are two code transmission channels in the upstream transmission subsystem and these two code transmission channels use different offsets of the midamble code, then the power gain for the midamble code in the first code channel is equal to the power gain for the data in the first code channel, and the coefficient the power gain for the midamble code in the second code channel is equal to the power gain for the data in the second code channel;
if there are two code transmission channels in the uplink transmission subsystem and these two code transmission channels use the same midamble code offset, then the power gains for the midamble codes in the two code transmission channels are

. 5. The method according to claim 1 or 4, wherein in step C, a 14-bit quantized value of the power gain for the midamble code in the code channel is obtained by multiplying this power gain by 2 ¹⁴ . 6. A device for adjusting the power gain for code channels in the uplink transmission subsystem of a time and synchronous code division multiple access (TD-SCDMA) system, comprising an evaluation module, a first power gain determination module, a first quantization module , a second power gain coefficient determining module and a second quantization module, wherein
an evaluation module is configured to determine the number of code transmission channels in an uplink transmission subsystem; a first power gain determination module is configured to determine a power gain for data in each code channel;
the first quantization module is configured to perform standard multi-bit quantization of said power gain for data in a code channel;
a second power gain determination module is configured to determine a power gain for the midamble code in each code channel;
the second quantization module is configured to perform standard multi-bit quantization of said power gain for the midamble code in the code channel.

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