KR19980038294A - Apparatus and method for controlling operation flow of digital wireless terminal system - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus and method for flexibility in controlling operation (Tx, Rx, Monitor) flow of a TDMA digital wireless terminal system using a programmable control method.

An apparatus for controlling the operation flow of a digital wireless terminal system for achieving the above object compares a delay time of a predetermined operation mode with a reference counter value in order to control the operation time of each operation mode in the digital wireless terminal system. Comparison means, control information storage means for storing execution times and control information of the sub-operations for performing the sub-operations of the respective operation modes for a predetermined time, and performing the sub-operations corresponding to the predetermined operation. And control signal generating means for loading information corresponding to the predetermined operation mode from the control information storage means and generating a control signal during an operation time of each sub operation.

According to the present invention, in order to control the start time of the operation mode of the digital wireless terminal system, controllability and flexibility of the system are improved by using control occurrence time information and control information, which are conventionally fixed and programmable without hardware control. Is effective.

Description

Apparatus and method for controlling operation flow of digital wireless terminal system

The present invention relates to an apparatus and method for controlling an operation flow of a digital wireless terminal system. More particularly, the present invention provides a control signal generating means for controlling a start time for an operation mode of a digital wireless terminal system. The present invention relates to an apparatus and method for controlling an operation flow of a digital wireless terminal system.

Recently, research and development on information and telecommunications business has been activated. One of the fields of research and development relates to digital wireless terminal systems.

The digital wireless terminal system includes a system using a code division multiple access (CDMA) scheme and a wireless terminal system of a global system mobile (GSM) using a time division multiple access (TDMA) scheme. It can be distinguished.

The most important consideration in such a digital wireless terminal system relates to power management for minimizing the power consumption consumed in the system.

In order to minimize the power consumption of the system, the components of the wireless terminal system are first used as low power saving devices. Another method uses a method of supplying power only to the corresponding operation module according to the operation state of the wireless terminal system and reducing the overall power supply amount by stopping the power supply to other modules that do not operate.

In performing such selective powering, it is very important to determine the active time of a module.

Before discussing the selective power supply, the configuration and operation principle of a general TDMA digital wireless terminal system will be described with reference to FIGS.

1 is a conceptual diagram illustrating communication between a digital wireless terminal system and a base station. As shown, a base station 11 for transmitting communication data and a digital wireless terminal system 12 communicating with other communication subscribers through the base station 11 are provided. In this case, the circle shown means a cell representing a communication area of influence from one base station.

In order to detect the movement between cells by the digital wireless terminal system hand-over (hand-over), the wireless terminal system always communicates periodically with the shortest distance base station. This operation is called a monitor operation.

2 is a block diagram showing the configuration of each functional module operating in the digital wireless terminal system. As shown, the downlink (Rx) refers to an operation of receiving data from the base station 11, first to compensate for the frequency at which the data is attenuated through the equalizer 21, and then to encrypt the data stored in the data. Pass the decryption means 22 to decrypt it. Since the decrypted data is interleaved data, the deinterleaving means 23 is used to deinterleave the data. After the deinterleaved data is decoded using the decoder 24, the speech decoder 25 is used to decompress the data to generate a voice, and the voice is transmitted to the subscriber through the speaker 26.

Up Link (Tx) is a speech encoder 32 which compresses the voice input from the subscriber via the microphone 31 and after the encoder 33 encodes the compressed voice data for transmission to the communication channel. Data interleaving is performed using interleaving means 34 for error correction before transmitting the encoded data to a communication channel (not shown). The data is organized into communication units using the burst building means 36 for transmission to the communication channel (not shown) after the interleaved data is encrypted using the encryption means 35.

Also, in order to communicate with the base station 11, a downlink (Rx) and uplink (Tx) operation module transmits communication data (eg, voice data) to a radio frequency converter. (18) is passed through the interface unit 19 for digitizing the converted data. The transmission is performed in the reverse order of the above operation.

Meanwhile, each of the components is in an active or idle state according to a control signal generated by the TDMA controller 40.

The operation of the digital wireless terminal system configured as described above is a general knowledge for those skilled in the art, and thus will be described briefly.

3 is a block diagram showing a period of performing each module operation in a TDMA digital wireless terminal system. As illustrated, since the digital wireless terminal system uses the TDMA scheme, synchronization with the base station 11 is performed to perform basic operations of the terminal system such as data transmission / reception (Rx, Tx) and monitor.

That is, the time performed by the data reception operation Rx is fixed to the digital wireless terminal system.

4 is a timing chart illustrating a time window of an Rx module operation of FIG. 3. As shown, each sub-operation constituting the operation of the Rx module in the operation cycle of the Rx module is activated at a given time. In order to synchronize the sub action, Use a biter counter.

In the general TDMA digital wireless terminal system described with reference to FIGS. 1 to 4, when performing selective power supply for power management as described above, it is very important to determine an active time of a module.

In general, the criterion for selecting an active time point of a module is to limit the power supply in a cyclic order by fixing a period of performing basic operations of a terminal system such as data transmission and reception (Rx, Tx) and monitor during production. Perform TDMA communication. For example, power is supplied to a receiving module to perform a receiving operation Rx, and no power is supplied to other modules. Subsequently, power is periodically supplied at a predetermined time in the order of the transmission operation Tx and the monitor operation.

However, in the conventional TDMA digital wireless terminal system, the basic timing of performing the basic operations is fixed at the time of production, so that the terminal system can be changed and operated to change the operation module or move the terminal system to a country or region using heterogeneous communication methods. There was a problem that needs to be replaced.

An object of the present invention is to provide an apparatus and method for flexibility in controlling the operation (Tx, Rx, Monitor) flow of a TDMA digital wireless terminal system using a programmable control method. .

1 is a conceptual diagram illustrating communication between a digital wireless terminal system and a base station.

Fig. 2 is a block diagram showing the configuration of each functional module operating in the digital wireless terminal system.

3 is a block diagram showing a performance period of each module operation in a TDMA digital wireless terminal system.

4 is a timing chart illustrating a time window of the Rx module operation of FIG.

5 is a block diagram showing an operation flow control means of the digital wireless terminal system according to the present invention.

6 is a block diagram showing in detail the comparison of FIG.

7 is a block diagram showing in detail the control information storage means of FIG.

8 is a flowchart illustrating an operation flow control method of a digital wireless terminal system according to the present invention.

Explanation of Signs of Major Parts of Drawings

11: base station 12: digital wireless terminal system

18: RF unit 19: Interface unit

21: Equalizer 22: Decryption Means

23 deinterleaving means 24 decoder

25: speech decoder 26: speaker

27: receiver (Rx or Down Link)

31: microphone 32: speech encoder

33 encoder 34 interleaving means

35: encryption means 36: burst building means

37: Transmitter (Tx or Up Link)

40: TDMA control unit 51: comparison unit

52: control information storage means 53: control signal generator

61: Down Counter 62: Tx Control Information

63: Rx Control Information 64: Monitor Control Information

An apparatus for controlling the operation flow of a digital wireless terminal system for achieving the above object compares a delay time of a predetermined operation mode with a reference counter value in order to control the operation time of each operation mode in the digital wireless terminal system. Comparison means, control information storage means for storing execution times and control information of the sub-operations for performing the sub-operations of the respective operation modes for a predetermined time, and performing the sub-operations corresponding to the predetermined operation. And control signal generating means for loading information corresponding to the predetermined operation mode from the control information storage means and generating a control signal during an operation time of each sub operation.

In addition, an operation flow control method of a digital wireless terminal system for achieving the above object is a loading step of loading a delay time corresponding to the operation mode to perform a predetermined operation mode, and according to the clock signal input from the TDMA counter A sub-operation instructing step of instructing a control signal generation unit to perform sub-operations of the operation mode using the control information of the operation mode while down counting the delay time; and information on the sub-operations of the operation mode And a control signal generation step of loading information of the sub-operations in the operation mode from the stored control information storage means and generating a control signal corresponding to each sub-operation by a delay time corresponding to each sub-operation. .

Hereinafter, the objects, features, and advantages of the present invention described above will be described in more detail with reference to the preferred embodiments of the present invention shown in the accompanying drawings.

5 is a block diagram showing an operation flow control means of the digital wireless terminal system according to the present invention. As shown in the drawing, in order to control the operation time of each operation mode in the digital wireless terminal system, comparing means 51 for comparing a delay time of a predetermined operation mode among the operation modes and the reference counter value, Control information storage means (52) for storing execution times and control information of the sub-operations to perform sub-operations for a predetermined time; and the control information storage means (52) for performing sub-operations corresponding to the predetermined operation Control signal generating means 53 for loading information corresponding to the predetermined operation mode and generating a control signal during an operation time of each sub operation.

At this time, the delay time and the control information are stored in the registers of the control information storage means 52 and the registers of the comparison means 51, and set the plurality of registers microprogrammably so that the information and times are set. I can correct it.

6 is a block diagram illustrating in detail the comparison unit of FIG. 5. As shown, the storage means (62, 63, 64) storing the information on the delay time and control information corresponding to the operation mode, and from the storage means to control the operation period of the operation mode And a down counter 61 for counting the delay time value during the operation mode by loading a delay time corresponding to the delay time.

7 is a block diagram showing in detail the control information storage means of FIG. As shown, storage means for storing the delay time of the sub-operations corresponding to each operation mode and control information thereof.

The delay time of the basic operations as shown in FIGS. 6 and 7 and the delay time of the sub-operations constituting the respective basic operations may be programmable by the microprocessor.

8 is a flowchart illustrating an operation flow control method of a digital wireless terminal system according to the present invention. As shown, a loading step of loading a delay time corresponding to the operation mode to perform a predetermined operation mode, and control information of the operation mode during down counting the delay time according to a clock signal input from a TDMA counter. A sub-operation instructing step of instructing a control signal generator to perform sub-operations of the operation mode, and information of the sub-operations of the operation mode from control information storage means in which information on the sub-operations of the operation mode is stored; And generating a control signal corresponding to each sub-operation by a delay time corresponding to each sub-operation.

Looking at the operation of the present invention configured as shown in Figures 5 to 7 with reference to FIG.

First, a delay time is loaded into the down counter 61 to perform a Tx operation (step 81).

After loading the delay time to the down counter 61, perform the sub operation of Tx to the control signal generator 53 using the control information while down counting the delay time according to the clock signal input from the TDMA counter (not shown). Instruct it to do it (step 82).

The control signal generator 53 receiving the instruction for the Tx operation loads the information of the sub-operations for the Tx from the control information storage means 52 in which the information on the sub-operations for the respective modes is stored, and thus the delay time. Each control signal is generated (steps 83 and 84).

When the sub operation corresponding to the Tx operation is completed, the Rx operation, which is the next operation, is performed in the same manner as the operation (step 85).

As described above, according to the apparatus and method for controlling an operation flow of a digital wireless terminal system according to the present invention, a control programmatically fixed without hardware is conventionally fixed to control a start time for an operation mode of a digital wireless terminal system. By using the occurrence time information and control information, it is effective to improve the controllability and flexibility of the system.

Although the preferred embodiments of the present invention have been described in detail above, those skilled in the art will appreciate that the present invention may be modified without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made. Therefore, changes in the future embodiments of the present invention will not be able to escape the technology of the present invention.

Claims (8)

In the operation flow control apparatus of the digital wireless terminal system which is equipped with a TDMA counter to generate a control signal for performing a predetermined operation every predetermined period, Comparison means for comparing a delay time of the predetermined operation mode with the TDMA counter value to control an operation time of the predetermined operation; Control information storage means for storing execution times and control information of the sub-operations to perform sub-operations of the predetermined operation mode for a predetermined time; And A control signal which loads information corresponding to the predetermined operation mode from the control information storage means to perform sub operations corresponding to the predetermined operation and generates a control signal according to the information during an operation time of each sub operation; An apparatus for controlling the operation flow of a digital wireless terminal system, comprising: a generating means. The method of claim 1, wherein the comparing means A plurality of storage means for storing information on delay time and control information corresponding to the operation mode; And And a down counter for loading the delay time corresponding to the operation mode from the storage means to count the delay time value during the operation mode to control the operation period of the operation mode. Operation flow control device of the system. The method of claim 1, wherein the control information storage means And storage means for storing a delay time of the sub-operations corresponding to the operation mode and control information thereof. The method of claim 1, wherein the predetermined operation is performed by: And a data reception operation, a data transmission operation, and a monitor operation. 4. The storage device according to claim 2 or 3, wherein the storage means. An apparatus for controlling the operation flow of a digital wireless terminal system, characterized in that a plurality of registers. The method of claim 5, wherein the delay time, And setting the registers programmatically by a microprocessor. The method of claim 5, wherein the control information, And setting the registers programmatically by a microprocessor. A method of controlling the operation flow of a digital wireless terminal system in which a TDMA counter is mounted to generate a control signal for performing a predetermined operation at a predetermined cycle. Loading a delay time corresponding to the operation mode to perform the predetermined operation; A sub operation instructing step of instructing a control signal generation unit to perform sub operations in the operation mode using the control information of the operation while down counting the delay time according to a clock signal input from the TDMA counter; And Loading the information of the sub-operations of the operation mode from the control information storage means in which the information on the sub-operations of the operation mode is stored to generate a control signal corresponding to each sub-operation by a delay time corresponding to each sub-operation. And a control signal generation step.