KR100421960B1 - Communication terminal having dual function of cellular and radio frequency - Google Patents

Abstract

The present invention is to provide a communication terminal with a mobile phone and a radio function that allows the implementation of low cost and miniaturization by sharing the RF circuit between the cellular unit and the radio unit in a terminal having a function of a mobile phone and a radio, such a terminal, A transmitter for sharing a plurality of amplifiers and upconverters in transmission of a cellular phone signal and a radio signal; A receiving end for sharing the amplifier and the downconverter when the cellular phone signal and the radio signal are received; It comprises a local oscillator for generating a local oscillation frequency corresponding to the frequency range of the mobile phone signal and the radio signal to apply to the up and down converters of the transmitter and the receiver, respectively, using a single wireless communication terminal In the case of supporting frequency and communication services (mobile phones and radios), a single RF transceiver circuit can be implemented in a single device, thereby lowering the cost of the product and reducing the volume of the product.

Description

Communication terminal having both cellular and radio functions {Communication terminal having dual function of cellular and radio frequency}

The present invention relates to a communication terminal in which the functions of a mobile phone and a radio are mixed, and more particularly, to a communication terminal in which a mobile phone and a radio function are used for enabling a low-cost and miniaturization in a terminal having the functions of a mobile phone and a radio. will be.

In general, mobile phones are full duplex and radios are half duplex. The frequency bands of mobile phones and radios are different.

1 is a block diagram of a communication terminal in which a mobile phone and a radio function are mixed according to the prior art.

According to FIG. 1, a terminal structure in which a radio is introduced in a conventional cellular phone system includes a cellular unit 110 and a radio unit 150 each including an amplifier, a filter, a frequency converter, a local oscillator, and the like.

In the transmission method of the cellular unit 110, the low frequency modulated signal (Tx Cellular BASE FREQ) is converted into an RF frequency through the up-converter 112, which is a frequency converter, and the image frequency is removed through the filter 113 in a heterodyne manner. The signal is then increased through the drive amplifier 114 and the power is increased through the power amplifier 115. This RF signal is radiated through the antenna via the duplexer 120.

In the reception method of the cellular unit 110, the RF signal from the antenna is received through the duplexer 120. The received RF signal is amplified by the low frequency amplifier 121, the ambient noise signal is removed through the filter 122, and converted into a low frequency modulated signal (Rx Cellular BASE FREQ) through the down converter 123 which is a frequency converter.

Here, a local oscillator 130 and a phase-locked loop (PLL) 131 are provided for frequency conversion of the up-converter 112 and the down-converter 123, and its operation is well known.

And the transmission method and the reception method of the transceiver unit 150 is similar to the cellular unit 110. However, since the frequencies used by each other are different, and the cellular unit 110 uses the full-duplex method, the transceiver unit 150 uses the half-duplex method, so the transmit / receive signal of the antenna is transmitted using the transmit / receive switch 160 instead of the duplexer 120. Will be chosen.

However, in the related art, by separating the cellular unit 110 and the radio unit 150 functionally, each RF circuit is independently present in a cellular phone of which size is important, thereby increasing the size of a single product. There is a disadvantage in that the required unit cost increases.

The present invention was created to solve the above-mentioned conventional problems, and an object of the present invention is to realize a low cost and miniaturization by sharing an RF circuit between a cellular unit and a radio unit in a terminal having a function of a mobile phone and a radio. It is to provide a communication terminal with a combination of mobile phones and radio functions.

In order to achieve the above object, a communication terminal having a cellular phone and a radio function mixed with the present invention includes: a transmitting terminal for sharing a plurality of amplifiers and upconverters when transmitting a cellular phone signal and a radio signal; A receiving end for sharing the amplifier and the downconverter when the cellular phone signal and the radio signal are received; It characterized in that it comprises a local oscillator for generating a local oscillation frequency corresponding to the frequency range of the mobile phone signal and the radio signal to apply to the up / down converter of the transmitter and the receiver, respectively.

1 is a block diagram of a communication terminal with a mobile phone and a walkie-talkie function according to the prior art.

Figure 2 is a block diagram of a communication terminal with a mixed use of the mobile phone and the radio function according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

210: transmitting end

211: low frequency cellular spreading signal modulation transmission unit

212 low frequency radio signal modulation transmitter

213: Tx base signal switch 214: upconverter

215, 218: Tx filter switch 216, 217: filter

219 drive amplifier 221 Tx switch

222: duplexer 230: antenna switch

231: transmitting and receiving switch 250: receiving end

251: Rx switch 252: low noise amplifier

253, 256: Rx filter switch 254, 255: filter

257: downconverter 258: Rx base signal switch

259: low frequency cellular spreading signal modulation receiver

260: low frequency radio signal modulation receiver 220: power amplifier

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a block diagram of a communication terminal in which a cellular phone and a radio function are mixed according to an embodiment of the present invention.

According to FIG. 2, the present embodiment includes a transmitting end 210 and a receiving end 250 capable of processing a mobile phone signal and a radio signal, and the driving amplifier 219, power at the transmitting end 210 and the receiving end 250. Amplifiers such as the amplifier 220 and the low noise amplifier 252 and the frequency converters such as the up-converter 214 and the down-converter 257 are shared by the cellular phone and the transceiver.

Mobile phones use full duplex with different Rx and Tx frequencies, while radios use half duplex with the same Rx and Tx. Therefore, in order to share the RF transmission and reception circuit in the mobile phone side and the transceiver side by using the antenna switch 230 connected to the antenna to select between the full-duplex and half-duplex. In the accompanying drawings, the terminals of the switches 213, 215, 218, 221, 230, 251, 253, 256, and 258 indicate a radio signal with 'H' and a cell phone signal with 'C'.

Since the cellular phone and the radio use different frequency ranges, the local oscillation frequency is generated by controlling the local oscillator 270 using a programmable phase locked loop (PLL) 271. The local oscillation frequency is applied to the up-converter 214 of the transmitter 210 and the down-converter 257 of the receiver 250.

Since the mobile phone and the radio need different image filters, the filter switches 215, 218, 253 and 256 are used to select the filters 216, 217, 254 and 255.

In this common RF transceiver circuit, the signal transmission / reception process according to the cellular phone function and the radio function will be described. When the cell phone function is performed, the 'C' terminal is connected to the selection switches, and when the radio function is performed, the 'H' terminal is connected to the corresponding selection switches.

According to this, the transmission path of the cellular phone transmission signal is a low frequency cellular spreading signal modulation transmitter (Tx Cellular BASE FREQ) 211 → C terminal of the Tx base signal switch 213 → up-converter 214 → Tx filter switch 1 (215). C terminal → Tx cellular filter 217 → C terminal of Tx filter switch 2 218 → drive amplifier 219 → power amplifier 220 → C terminal of Tx switch 221 → duplexer 222 → antenna It is the same as the C terminal of the switch 230. Through this path, the transmitted signal reaching the C terminal of the antenna switch 230 is radiated through the antenna.

On the other hand, the transmission path of the cellular phone reception signal is C terminal of the antenna switch 230 → duplexer 222 → C terminal of the Rx switch 251 → low noise amplifier 252 → C terminal of the Rx filter switch 1 253 → Rx cellular filter 254 → C terminal of Rx filter switch 2 (256) → downconverter 257 → Rx base signal switch 258 of terminal C. At this time, C terminal of Rx base signal switch 258 The output of the signal becomes a low frequency cellular reliable signal modulation receiver (Rx Cellular Base FREQ 260).

While the terminal performs the cellular phone function, the phase synchronization loop 271 controls the local oscillator 270 to generate a local oscillation frequency corresponding to the cellular phone. The generated local oscillation frequency is controlled by the up-converter 214 and the down-converter. 257, respectively.

Meanwhile, the terminal connects each selection switch to the H terminal to perform the radio function.

The transmission path of the radio transmission base signal is a low frequency radio signal modulation / transmission unit (Tx radio base signal) 212 → H terminal of the Tx base signal switch 213 → H of the upconverter 214 → Tx filter switch 1 (215). Terminal → Tx radio filter 216 → H terminal of Tx filter switch 2 218 → drive amplifier 219 → power amplifier 220 → H terminal of Tx switch 221.

In order to separate the transmission signal and the reception signal according to the half-duplex method, the transmission and reception switch 231 is passed through. The transmission and reception switch 231 is connected to the Tx terminal. Therefore, the transmission signal passing through the H terminal of the Tx switch 221 is radiated through the antenna via the H terminal of the Tx terminal → antenna switch 230 of the transmission and reception switch 231.

The transmission path of the radio signal is transmitted from the H terminal of the antenna switch 230 to the Rx terminal of the transmit / receive switch 231 to the H terminal of the Rx switch 251 to the H of the Rx filter switch 1 253. Terminal → Rx radio filter 255 → H terminal of Rx filter switch 2 (256) → down converter 257 → H terminal of Rx base signal switch 258. The output of the H terminal of the Rx base signal switch 258 passes through the low frequency radio signal modulation receiver (Rx radio BASE FREQ) 259 to become a radio reception base signal.

This enables the implementation of a communication terminal having a mobile phone function and a radio function by sharing a single RF transceiver circuit. In the case of operating the communication terminal, as the user selects the cellular phone function and the radio function, if a series of selection switches are connected to the H terminal or the C terminal, multiple amplifiers and frequency converters can be shared.

The embodiments described above are within the scope of various changes, modifications, and equivalents of the present invention. Therefore, the present invention is not limited to the description of the examples.

According to a communication terminal in which the cellular phone and the radio function of the present invention are mixed, a single RF transmission / reception circuit is used when a single radio communication terminal is used to support different types of frequencies and communication services (mobile phones and radios). Since it can be implemented in the device has the effect of lowering the unit cost and volume of the product.

Claims (4)

A modulation transmitter 1 for generating a low frequency cellular spread signal; A modulation transmitter 2 for generating a low frequency radio signal; A Tx base signal switch for performing selective switching on the Tx base signal generated by each modulation transmitter; An upconverter for up frequency converting the output of the Tx base signal switch; Tx filter switch 1 and Tx filter switch 2 for selectively connecting the output of the up-converter to a plurality of filters; A Tx cellular filter for band filtering the Tx base signal generated by the modulation transmitter 1 according to a mobile phone frequency band; A Tx radio filter for band-filtering the Tx base signal generated by the modulation transmitter 2 according to a radio frequency band; An amplifier for amplifying the output of the Tx filter switch 2; A Tx switch for selectively switching the output path of the signal amplified by the amplifier; And a duplexer connected to any terminal of the Tx switch to connect the mobile phone frequency signal to an antenna in a full-duplex manner, and transmitting a mobile phone signal and a radio signal according to the selection of the switch. An Rx switch for selecting a cellular phone signal and a radio signal received through an antenna; An amplifier for amplifying a received signal selectively connected by the Rx switch; An Rx filter switch 1 and an Rx filter switch 2 for performing selective switching depending on whether the received signal amplified by the amplifier is a cellular phone signal or a radio signal; An Rx cellular filter for filtering a cellular phone received signal connected by the Rx filter switch 1 according to a corresponding frequency band; An Rx radio filter for filtering a radio receiver signal connected by the Rx filter switch 1 according to a corresponding frequency band; A down converter for down frequency converting the output of the Rx filter switch 2; An Rx base signal switch for selectively switching according to whether the output of the down converter is a cellular phone signal or a radio signal; A modulation receiver 1 for modulating and receiving a cellular phone received signal connected by the Rx base signal switch into a low frequency cellular spread signal; A modulation receiver 2 for modulating and receiving a radio frequency reception signal connected by the Rx base signal switch into a low frequency radio signal, and receiving a mobile phone signal and a radio signal according to selection of the switch; And And a local oscillation unit for generating a local oscillation frequency corresponding to a frequency range of the cellular phone signal and the radio signal and applying them to up / down converters of the transmitter and the receiver, respectively. . delete delete The signal output from the Tx switch of the transmitter, A transmission / reception switch for connecting the radio signal to the Tx switch and the reception signal to the Rx switch when the Tx switch is connected to the radio signal; And a radio switch for connecting the transceiver and the duplexer to the antenna selectively.