JPH10322765A - Tdma transmission timing setting system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a TDMA(time division multidimensional connection) transmission timing setting system for easily measuring optimum transmission timing based on a distance between a slave machine and a base station, automatically setting transmission timing, shortening adjusting time until the slave machine can communicate and easily executing automatic adjustment. SOLUTION: A transmission timing generation circuit 6 for transmitting a test signal having a specified pattern from the slave machine to the base station, collating the received test signal inputted from the base station by folding it and outputting a transmission timing signal to a transmission circuit 2 adjusts transmission timing by the control signal of a collation result on a reception pattern and a transmission pattern when the slave machine is brought closely near the base station by setting transmission timing when a transmission time slot and a reception time slot are detached by 1/2 frame as a reference. Transmission timing is transmitted faster than the reference as the distance between the slave machine and the base station becomes longer, and it is automatically controlled to be adjusted to the time slot detached by 1/2 frame.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a time division multiple access (T
DMA) measurement of the distance between the slave unit and the base station,
The present invention relates to a method for automatically setting transmission timing.

[0002]

2. Description of the Related Art Conventionally, as this type of distance measuring technique, there is, for example, a "synchronous method" disclosed in Japanese Patent Application Laid-Open No. 59-183538. A method in which a ranging signal is transmitted from a slave to a base station, a base station transmits a return signal to the base station, and the slave calculates a distance from a time difference between a transmitted radio wave and a received radio wave. Compare the time slot received from the slave unit with the reference position,
This is a method of notifying the slave unit of the shift information.

[0003] In addition, there is Japanese Patent Application Laid-Open No. Sho 62-67939 "TDMA acquisition system". Transmit a burst signal called an acquisition signal from the slave unit to the base station,
This is a method in which the base station receives this and notifies the slave unit of information on deviation from the predicted position.

[0004]

The base station has a time slot reading time window for the received radio wave, and the slave unit adjusts the transmission timing so as to optimally match the time slot.

However, the first problem of the method for measuring the time difference between the transmission radio wave and the reception radio wave according to the "synchronous system" disclosed in JP-A-59-183538 or the "TDMA acquisition system" disclosed in JP-A-62-67939 is as follows. In addition, the measurement time at the slave unit becomes inaccurate. The reason is that the processing time from the reception of the radio wave to the transmission at the base station is included in the measurement time.

[0006] The second problem is that the equipment of the base station becomes complicated. The reason is that the base station needs a means for measuring the deviation from the reference time slot and a means for notifying the slave unit of the measurement result as information.

[0007] An object of the present invention is to easily measure the optimum transmission timing based on the distance between a slave unit and a base station on the slave unit side,
TDMA that automatically sets the transmission timing, shortens the adjustment time until the slave unit can communicate, and simplifies automatic adjustment
The purpose is to provide a transmission timing setting method.

[0008]

According to the TDMA transmission timing setting method of the present invention, a test signal is transmitted from a slave unit to a base station in a slave unit transmission timing setting system in a time division multiple access system of a mobile communication system. Means, means for verifying a test signal that is repeatedly input from the base station, and means for changing the transmission timing according to the result of the verification.

The means for transmitting a test signal from the slave unit to the base station includes a test pattern generator for generating a test signal having a specific pattern, a test signal as an input, modulation, and transmission according to a transmission timing. A transmission / reception duplexer that receives an output of the transmission circuit as an input and transmits the output from the antenna to the base station.

[0010] Further, the means for verifying the test signal that is input repeatedly from the base station includes a receiving circuit that receives the test signal from the base station by the transmission / reception duplexer, demodulates the test signal, and outputs the demodulated signal.
A frame synchronization circuit that generates a reception frame pulse by using an output of the reception circuit as an input, a matching circuit that receives the output of the reception circuit and the output of the test pattern generator as inputs, and outputs a control signal that adjusts a transmission timing; Having.

Further, the means for changing the transmission timing according to the result of collation has a transmission timing generation circuit which receives a control signal output from the collation circuit, is driven by a frame pulse, and outputs a transmission timing signal. When the transmitter and the base station are very close to each other, transmission is performed by a control signal of a comparison result of the reception pattern and the transmission pattern based on the transmission timing at which the transmission time slot and the reception time slot are separated by 1/2 frame. The timing is adjusted, and as the distance between the slave unit and the base station increases, the transmission timing is transmitted earlier than the reference.
It is characterized in that control is performed so as to match time slots separated by frames.

At the base station, the slave unit controls the received time slot to transmit the time slot to the slave unit.
Transmit the test pattern. The start and the end of the return control are determined in advance by a procedure and method. After entering the loopback state, a specific pattern is set for the time slot transmitted from the slave unit to the base station, and simultaneously transmitted from the transmission circuit to the base station and input to the collator, and the test signal returned from the base station and received is returned. The signal is detected by the receiving circuit, input to the collator, and compared with the transmission pattern. If the transmission timing is appropriate, the received pattern should just match the transmitted pattern since it has just been looped back at the base station, and it is determined that the timing is optimal. If the timing is shifted, the base station erroneously reads the data, and the folded pattern does not match the transmitted pattern. Since the bit time of the transmission timing to be corrected can be easily found from the position of the mismatch bit, the transmission timing is adjusted based on the result.

[0013]

Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 is a block diagram showing a circuit configuration of one embodiment of the present invention. Referring to FIG. 1, the output of a test pattern generator 1 is input to a transmission circuit 2 and the output is connected to a duplexer 3. The reception output from the duplexer 3 is guided to the reception circuit 4, the output is guided to the frame synchronization circuit 5, and the output is transmitted to the transmission timing generation circuit 6.
Connect to Further, the output of the receiving circuit 4 and the output of the test pattern generator 1 are connected to the collator 7.

Next, the operation of the present invention will be described. Referring to FIG. 1, a specific test pattern signal 1
1 is generated, input to the transmission circuit 2, and subjected to modulation.
The signal is transmitted from the antenna to the base station (not shown) via the duplexer 3. The base station reads the test pattern, replaces the test pattern with the downlink radio wave, and transmits the read test pattern to the slave unit. In the slave unit, after the reception output from the transmission / reception duplexer 3 is demodulated by the reception circuit 4, the frame synchronization circuit 5 creates a reception frame pulse 14. The transmission timing generating circuit 6 is driven by the frame pulse 14 to transmit the transmission timing signal 13.
Generate. At the same time, the received pattern signal 12 is
To compare with the transmission pattern signal 11. When the slave unit and the base station are very close, the optimum transmission timing is that the transmission time slot and the reception time slot are separated by １ ／ frame. As the distance increases,
The transmission timing slot is transmitted earlier than this reference position.
Control is performed so as to match the timing between frames.

Next, the operation will be described with reference to FIG. FIG.
FIG. 4 is a diagram showing a timing chart of a test pattern signal in an up direction (transmission direction) and a reception pattern signal in a down direction (reception direction) in one embodiment of the present invention. In the uplink signal, for example, 8 bits of 11110000 are inserted as the test pattern signal 11 in the time slot allocated to the slave unit. On the other hand, the downlink signal (1) is a radio wave received from the base station, and a test pattern signal 11 that matches the transmission pattern of 11110000 is inserted in a time slot after 1/2 frame assigned to the slave unit. . This shows the case of a normal transmission timing signal 13. That is, it indicates that the base station has normally read the test pattern. On the other hand, downstream signal (2)
8 bits X1111000 (X = unspecified bit) are inserted in the time slot of. It is different from the transmission pattern. Focusing on the boundary between 1 and 0,
The fourth and fifth bits are counted from the left side in the test pattern, but the fifth and sixth bits are in the received pattern, indicating that the base station has read it one bit earlier. That is, the transmission timing signal 13 is too late by one bit. Suppose the transmission timing signal 13
Is too early, the received pattern signal 12
The boundary between 0 and 0 comes before the test pattern signal 11. In this way, it is possible to determine whether the time slot when arriving at the base station is normal or not before or after the boundary,
Further, the transmission timing to be corrected is determined based on how many bits are shifted. Based on the collation result, collator 7 generates transmission timing control signal 15 and adjusts transmission timing signal 13. This adjustment is simple, and it is sufficient to shift in the direction of canceling the shift by a bit time equal to the number of shifted bits. In this example, since it is one bit too late, only one bit needs to be advanced.

[0016]

According to the present invention, the optimum transmission timing based on the distance between the slave unit and the base station is easily measured by the slave unit, the transmission timing is automatically set, and until the slave unit can communicate. TD that shortens the adjustment time of the camera and simplifies automatic adjustment
There is an effect that the MA transmission timing setting method is provided.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a circuit configuration of an embodiment of the present invention.

FIG. 2 is a diagram showing a timing chart of a test pattern signal in a transmission direction and a reception pattern signal in a reception direction in one embodiment of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 test pattern generator 2 transmission circuit 3 transmission / reception duplexer 4 reception circuit 5 frame synchronization circuit 6 transmission timing generation circuit 7 collator 11 test pattern signal 12 reception pattern signal 13 transmission timing signal 14 reception frame pulse 15 transmission timing control signal

Claims (4)

[Claims] 1. A transmission timing setting method for a slave unit in a time division multiple access system of a mobile communication system, wherein: a means for transmitting a test signal from the slave unit to a base station; A TDMA transmission timing setting method, comprising: means for checking the transmission timing; and means for changing the transmission timing according to the result of the verification. 2. A means for transmitting a test signal from the slave unit to a base station, comprising: a test pattern generator for generating a test signal of a specific pattern; a test signal as an input; The TDMA according to claim 1, further comprising: a transmission circuit that performs transmission and a transmission / reception duplexer that receives an output of the transmission circuit as an input and transmits the signal from an antenna to a base station.
Transmission timing setting method. 3. A receiving circuit for receiving a test signal from the base station by the duplexer, demodulating the received test signal, and outputting the demodulated signal. A frame synchronization circuit that drives a transmission timing circuit by generating a reception frame pulse with the input as an input, an output of the reception circuit and an output of the test pattern generator as inputs, and outputs a control signal for adjusting transmission timing 2. The TDMA transmission timing setting method according to claim 1, further comprising: 4. A means for changing a transmission timing according to a result of collation has a transmission timing generation circuit which receives a control signal output from the collation circuit as input, is driven by the frame pulse, and outputs a transmission timing signal. When the slave unit and the base station are very close to each other, the control signal of the comparison result of the reception pattern and the transmission pattern is based on the transmission timing at which the transmission time slot and the reception time slot are separated by 1/2 frame. , Adjust the transmission timing, and as the distance between the slave unit and the base station increases,
2. The TDMA according to claim 1, wherein the transmission timing is transmitted earlier than the reference, and the base station controls the transmission timing so as to match a time slot separated by 1/2 frame.
Transmission timing setting method.