KR20000027474A - Radio communication using time division multiple access - Google Patents

Abstract

PURPOSE: A radio communication using a time division multiple access(TDMA) is provided th have a plurality of local lines by using the frequency hopping method together with the TDMA method to effectively utilize hardware in a radio frequency area and a baseband area. CONSTITUTION: A radio communication using a time division multiple access(TDMA) comprises: a transceiver composed of a radio frequency(RF) module and a baseband circuit for transmitting/receiving data transmitted from a local line or a handset; a plurality of local interfaces for connecting the transceiver with the local line; and a plurality of handsets for transmitting/receiving audio data to/from another handset or a local line by the transceiver.

Description

Wireless communication device using time division multiple access

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication device using time division multiple access, and more particularly, in a spread spectrum wireless communication system using frequency hopping, an RF part and a baseband. In order to use H / W part effectively, Time Division Multiple Access (hereinafter referred to as "TDMA") method is combined with one handset (Transceiver). The present invention relates to a wireless communication device using a time division multiple access to enable simultaneous communication using a plurality of trunk lines.

Currently, there is a band in the US frequency band called the Industrial Scientific Medical Band (hereinafter referred to as the "ISM band"), which includes the 900 MHz band, the 2.4 GHz band, and the 5.7 GHz band. Products using a communication technology called spread spectrum can use any application if several conditions are met. Applications include cordless phones, wireless local area networks (LANs), wireless local area exchanges (PABXs), wireless key phones, and ham equipment. Currently, Korean manufacturers also export products that operate on US bandwidth.

There are two main ways to implement the spread spectrum. There are two methods, a direct sequence method and a frequency hopping method. The dual frequency hopping method is as follows.

1 is a block diagram schematically showing the configuration of a wireless communication system using a frequency hopping method. As shown in FIG. 1, the frequency hopping frequency band operating in the US ISM band is 902 MHz to 9288 MHz, and the channel spacing is 200㎑ (B), number of channels is 130 (N), data rate is 80Kbps (S), hopping rate is 100 hops / sec (R) (i.e. 10msec. ), Half of the time is transmitted (TX) and the other half is received (RX) based on the time base of the time staying in one channel, and a hop sequence satisfying H orthogonality is shown. Likewise, in the base (10) of the wireless communication system using the frequency hopping method, there should be one RF circuit 21, 31 and one baseband circuit 22, 32 in each of two trunk lines. (Combining RF circuit and baseband circuit Verizon call). That is, in the case of two trunk line key phones, there should be two transceivers 20 and 30. Here, if the two trunk lines and the handset 40 are resources, the base 10 of the wireless communication system using the frequency hopping method requires as many transceivers as the number of resources.

As described above, when the spread spectrum technology is used to increase the operation range between the base and the handset in the conventional technology, the communication distance between the base and the handset is reduced according to the US FCC rules (low transmission power is limited). As a result, the spread spectrum technique cannot be used, and since the transceiver requires as many transceivers as the number of resources in the base to use a plurality of resources by using the frequency hopping method, the configuration of the device becomes complicated and the cost increases. .

Accordingly, the present invention has been devised to solve the above-mentioned conventional problems, and is time-division multiplexed in the frequency hopping method in order to efficiently use hardware (H / W) of the RF part and the baseband part. It is an object of the present invention to provide a device that uses a plurality of CO lines by simultaneously communicating with a plurality of handsets by using a TDMA scheme.

1 is a block diagram schematically showing the configuration of a wireless communication system using a conventional frequency hopping method.

2 is an exemplary view showing a configuration of a wireless communication device using the time division multiple access of the present invention.

*** Description of the symbols for the main parts of the drawings ***

10: base 20,30,50: transceiver

21,31,51: RF module 22, 32, 52: baseband circuit

70a to 70n: handset

A wireless communication apparatus using the time division multiple access according to the present invention for achieving the above object comprises: a transceiver comprising an RF module and a baseband circuit for transmitting and receiving data transmitted from a trunk line or a handset; A plurality of trunk line interfaces connecting the transceiver to a trunk line; Characterized in that composed of a plurality of handsets (Handset) for transmitting and receiving voice data to another handset or trunk line through the transceiver.

According to the number of the handset, the channel interval, the number of channels, the data rate and the hopping rate are varied.

The hopping rate is characterized by dividing the time staying in one channel into a plurality of time slots, and assigning half of each time slot to a slot for transmission, and assigning the other half to a slot for reception.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

2 is an exemplary view showing the configuration of a wireless communication device using the time division multiple access according to the present invention. As shown in the drawing, the RF module 51 and the baseband circuit 52 are used to configure a trunk line or a handset 70a to FIG. A transceiver 50 for transmitting and receiving data transmitted from 70n); Two trunk line interfaces 60 and 61 connecting the transceiver 50 and the trunk line; It consists of a plurality of handsets (70a to 70n) for transmitting and receiving voice data to another handset or trunk line through the transceiver (50).

Referring to the operation process and effect of the embodiment according to the present invention configured as described above are as follows.

As shown in FIG. 2, the frequency hopping frequency band operating in the US ISM band uses 902 MHz to 9290 MHz, but the channel spacing, channel count, data rate and hopping rate are similar to those of the handset to be used. According to the number (hereinafter, referred to as "I"), each variable is applied. That is, the channel interval is set to B * I ', the number of channels is set to N / I, the data rate is set to S * Ikbps, and the hopping rate is set to R / I.

For example, when the present invention is applied to simultaneously communicate with two handsets, the channel interval becomes 400 (200 * 2) ㎑, the number of channels becomes 65 (130/2), and the data rate is 160 ( 80 * 2) Kbps and the hopping rate is 50 (100/2) hops / sec (i.e. 50 msec dwell time in one channel).

The hopping rate divides the time staying in one channel into a plurality of time slots, and allocates half of each time slot to a slot for transmission (TX), and allocates the other half to a slot for reception (RX). A hop sequence that satisfies less than H orthogonality results.

As described above, the wireless communication apparatus using the time-division multiple access of the present invention uses the TDMA scheme in combination with the frequency hopping scheme, thereby making it strong for jamming and interfaces, and is easy to be multiplexed, and has a base station or base hardware configuration. This makes it simpler and less expensive to configure the system.

Claims (3)

A transceiver comprising an RF module and a baseband circuit for transmitting and receiving data transmitted from a trunk line or a handset; A plurality of trunk line interfaces connecting the transceiver to a trunk line; And a plurality of handsets for transmitting and receiving voice data to and from another handset or trunk line through the transceiver. The wireless communication apparatus using time division multiple access according to claim 1, wherein a channel interval, a number of channels, a data rate, and a hopping rate are varied according to the number of the handsets. The method of claim 2, wherein the hopping rate divides the time staying in one channel into a plurality of time slots, and allocates half of each time slot to a slot for transmission, and allocates the other half to a slot for reception. Wireless communication device using a time division multiple access.