JP3426735B2 - Digital wireless telephone - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a telephone call using a plurality of time-division multiplexed communication slots, such as an automobile telephone, a portable telephone, and a cordless telephone. It relates to a digital radio telephone. 2. Description of the Related Art A conventional digital radio telephone for making a telephone call by a time division multiplex transmission system is, for example, as shown in FIG.
A microphone 31, an A / D conversion circuit 32, a modulation circuit 33, a high-frequency signal processing circuit 34, a transmission / reception switching circuit 35, an antenna 36, a high-frequency signal processing circuit 37,
Demodulation circuit 38, D / A conversion circuit 39, speaker 40
And had. In this conventional digital radio telephone, sound is converted into an electric signal by a microphone 31, an analog signal is converted into a digital signal by an A / D conversion circuit 32, and the digital signal is converted into a modulation circuit 33.
Is converted into an intermediate frequency analog signal by a digital modulation method such as π / 4 QPSK, GMSK, FSK, etc., and this analog signal is converted by the high frequency signal processing circuit 34 into a predetermined radio frequency signal.
The signal is supplied to the antenna 36 during the time-division multiplexing transmission period by the reception switching circuit 35, and is radiated from the antenna 36 as a transmission signal. Further, the reception signal received by the antenna 36 is supplied to the high-frequency signal processing circuit 37 by the transmission / reception switching circuit 35 during the time-division multiplexing reception period. , And the analog signal is demodulated into digital data by the demodulation circuit 38.
The signal is converted into an analog signal of audio frequency by the / A conversion circuit 39, and the analog signal is converted into audio by the speaker 40. In a digital radio telephone, circuit abnormalities such as a modulation circuit 33, high-frequency signal processing circuits 34 and 37, and a demodulation circuit 38, interference waves during radio wave propagation, and radio wave propagation. A data error state such as a bit error of digital data, a bit loss, a burst loss, or the like may occur due to a decrease in a radio signal level due to an increase in the distance. [0005] However, the conventional digital radio telephone cannot detect such a data error state, and thus has a problem that high-quality communication quality cannot be ensured. The present invention has been made in view of the above circumstances, and has as its object to provide a digital radio telephone capable of accurately detecting a data error state and thus ensuring high-quality communication quality. According to a first aspect of the present invention, there is provided a digital radio telephone which performs a telephone call by a time-division multiplex transmission system, wherein transmission-side digital data before modulation and reception-side digital data after demodulation are transmitted. Digital data determination means for comparing and determining whether or not the two match is provided .
During the lot time, the transmission / reception switching time when the antenna is connected
In road demodulates the transmission signal of the radio frequency leaking to the reception side circuit from the transmitter circuit in the receiving circuit is demodulated
The digital data judging means is configured to compare the transmitted digital data with the transmitted digital data to detect a data error, and the received digital data is transmitted by the antenna.
Demodulates the signal from the opposite station by the demodulation means of the receiving circuit
Transmitting the demodulated digital data of the communication partner station to the transmission side.
A changeover switch means for supplying the modulation means of the circuit is provided.
Digital data obtained by the communication switch
The modulator is modulated by the modulating means of the transmission side circuit, and the modulation is performed.
Adjust the tuning signal to the transmission slot other than the normal transmission slot section of the own station.
By returning to the opposite station in the
The opposite station demodulates the return signal and returns the return digital signal.
Compare data with transmitted digital data for data errors
It is characterized in that it can be detected . According to the first aspect of the present invention, the digital data determination means compares the transmission-side digital data before modulation with the reception-side digital data after demodulation to determine whether or not the two match. judge. Then, at the time of transmission, the transmission signal of the radio frequency leaking from the transmission side circuit to the reception side circuit is demodulated, and the digital data is compared with the transmission digital data by the digital data determination means to detect a data error. Further, the changeover switch circuit supplies to the modulation means of the transmitting side circuit receiving side digital data demodulated by the demodulation means of the receiving circuit. Then, the received signal is demodulated by the demodulating means of the receiving circuit, the digital data is modulated by the modulating means of the transmitting circuit, and the signal is transmitted to the communication partner station in the transmitting slot section other than the normal transmitting slot section of the own station. Return to. Therefore, it is possible to detect the data error by demodulating the return signal on the communication opposite station side and comparing the return digital data with the transmission digital data. Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a circuit block diagram of a digital wireless telephone according to an embodiment of the present invention. This digital wireless telephone has a microphone 1 for converting voice into an electric signal and an A / A for converting an analog signal from the microphone 1 into a digital signal. A D conversion circuit 2, a changeover switch circuit 3 for selectively supplying one of a digital signal from the A / D conversion circuit 2 and a digital signal from the demodulation circuit 9 to the modulation circuit 4,
A modulation circuit 4 for modulating a digital signal from the A / D conversion circuit 2 or the demodulation circuit 9; a high-frequency signal processing circuit 5 for frequency-converting a signal from the modulation circuit 4; a high-frequency signal processing circuit 5 and a high-frequency signal processing circuit 8 Select antenna 7
, A transmission / reception switching circuit 6 connected to the antenna, an antenna 7 for transmitting and receiving radio waves, a high frequency signal processing circuit 8 for converting the frequency of the signal from the antenna 7, and a digital signal obtained by demodulating an analog signal from the high frequency signal processing circuit 8. Demodulation circuit 9
And the digital signal from the demodulation circuit 9 to the D / A conversion circuit 1
1, a switching circuit 10 for selectively supplying the switching signal to the switching circuit 3, a D / A conversion circuit 11 for converting a digital signal from the demodulation circuit 9 into an analog signal, and an analog signal from the D / A conversion circuit 11. , A digital signal from the A / D conversion circuit 2 and a D / A
A digital data determination circuit 13 compares the digital signal from the conversion circuit 11 to determine whether or not the two match, and outputs a notification signal when the two do not match. Next, the operation will be described. FIG. 2 is a timing chart of transmission and reception in time division multiplex communication, where T1 to T4 are transmission slots and R1 to R4 are reception slots. Now, as shown in FIG. 3, the digital radio telephone has a transmission slot T1 and a reception slot R1.
It is assumed that is used. At the time of normal transmission and reception, the changeover switch circuits 3 and 10 are in a state shown by a solid line in FIG.
At the time of transmission, the transmission / reception switching circuit 6 is in a state shown by a solid line in FIG. At the time of transmission, the microphone 1 converts a user's voice into an analog signal and supplies the analog signal to the A / D conversion circuit 2. As a result, the A / D conversion circuit 2
Is converted into digital data and supplied to the digital data determination circuit 13 and supplied to the modulation circuit 4 via the changeover switch circuit 3. Thereby, the modulation circuit 4 modulates the digital data from the A / D conversion circuit 2 and supplies the modulated intermediate frequency analog signal to the high frequency signal processing circuit 5. As a result, the high-frequency signal processing circuit 5 on the transmission circuit side converts the analog signal from the modulation circuit 4 into a transmission signal of a radio frequency and supplies it to the transmission / reception switching circuit 6. As a result, the transmission / reception switching circuit 6 supplies the transmission signal from the high-frequency signal processing circuit 5 to the antenna 7 during the transmission slot T1. Thereby, the antenna 7 transmits the transmission signal from the high-frequency signal processing circuit 5 as a radio wave. At this time, the high-frequency signal processing circuit 5
A radio frequency transmission signal supplied to the antenna 7 via the reception switching circuit 6 leaks from the transmission / reception switching circuit 6 to the high frequency signal processing circuit 8 side. Then, the high-frequency signal processing circuit 8 on the receiving circuit side converts the transmission signal of the radio frequency leaked from the transmission / reception switching circuit 6 into an analog signal of the intermediate frequency, and supplies it to the demodulation circuit 9. Thereby, the demodulation circuit 9
The analog signal from the high-frequency signal processing circuit 8 is demodulated, and the demodulated digital data is supplied to the D / A conversion circuit 11 via the switch circuit 10. Thereby, the D / A conversion circuit 11 supplies the digital data from the demodulation circuit 9 to the digital data determination circuit 13. Accordingly, the digital data determination circuit 13 compares the demodulated digital data from the D / A conversion circuit 11 with the corresponding transmission digital data from the A / D conversion circuit 2 and determines whether or not both match. Then, if the two do not match, an alarm signal is output. This notification signal is supplied to a notification device (not shown),
The user is notified of the data error state. This allows the user to know that a data error condition has occurred due to his digital wireless telephone. Such a determination operation is performed in the same period RT1 as the period of the transmission slot T1, as shown in FIG. As described above, at the time of transmission, the transmission signal of the radio frequency leaking from the transmission side circuit to the reception side circuit is demodulated, and the digital data is compared with the transmission digital data by the digital data determination circuit 13 to detect a data error. Therefore, it is possible to accurately detect a data error state caused by a circuit abnormality in the modulation circuit 4, the high-frequency signal processing circuits 5, 8, the demodulation circuit 9, and the like, and to ensure high-quality communication quality. At the time of reception, the antenna 7 supplies the received radio wave to the transmission / reception switching circuit 6 as a radio frequency reception signal. At this time, the transmission / reception switching circuit 6 is in a state indicated by a virtual line in FIG. 1, and supplies a reception signal from the antenna 7 to the high frequency signal processing circuit 8 during the reception slot R1 shown in FIG. Thereby, the high-frequency signal processing circuit 8
Converts the received signal from the antenna 7 into an analog signal having an intermediate frequency, and supplies the analog signal to the demodulation circuit 9. As a result, the demodulation circuit 9 demodulates the analog signal from the high-frequency signal processing circuit 8 and converts the demodulated digital data into the changeover switch circuit 1.
0 to the D / A conversion circuit 11. As a result, the D / A conversion circuit 11 converts the digital data from the demodulation circuit 9 into an analog signal of the audio frequency,
To supply. Thereby, the speaker 12 converts the analog signal from the D / A conversion circuit 11 into sound. In the case of detecting a data error state with the opposite station, when the user performs a predetermined operation, the changeover switch circuits 3 and 10 are brought into a state shown by a virtual line in FIG. 1 during the reception period. As a result, digital data obtained by demodulating a signal from the opposite station by the demodulation circuit 9 is transmitted to the changeover switch circuit 1.
The modulated signal is supplied to the modulating circuit 4 via 0, 3 and is modulated and transmitted through the high-frequency signal processing circuit 5 and the transmission / reception switching circuit 6.
The signal is transmitted from the antenna 7 during, for example, a transmission slot TR1 different from the normal transmission slot T1 shown in FIG. Accordingly, the transmission signal is received by the communication partner station, and the digital data judgment circuit 13 of the communication partner station compares the received digital data with the transmitted digital data. In this case, it is possible to accurately detect a data error state caused by an abnormality of the modulation circuit 4, the high-frequency signal processing circuits 5, 8, and the demodulation circuit 9, an interference wave during radio wave propagation, a decrease in signal level, and the like. As described above, according to the first aspect of the present invention, in a digital radio telephone set for performing a telephone call in a time division multiplex transmission system, transmission digital data before modulation and reception digital data after demodulation are used. Digital data determining means for comparing the data with the data to determine whether or not the two are the same; demodulating a radio frequency transmission signal leaking from the transmitting circuit to the receiving circuit during transmission, and converting the digital data into digital data; Since data error is detected by comparing with transmitted digital data by the data judging means, data error caused by abnormality of the transmitting side circuit and receiving side circuit of own station can be detected accurately, and communication quality can be improved. Can be maintained. [0018] In digital wireless telephone making a call by division multiplex transmission system time, provided the switch means for supplying the modulation means of the transmitting side circuit receiving side digital data demodulated by the demodulation means of the receiving circuit, receiving The signal is demodulated by the demodulating means of the receiving circuit, the digital data is modulated by the modulating means of the transmitting circuit, and the signal is returned to the communication partner station in a transmission slot section other than the normal transmission slot section of the own station. This allows the communication partner station to demodulate the return signal and compare the return digital data with the transmission digital data to detect a data error. A data error caused by an abnormality in an intervening circuit or a radio wave propagation path can be accurately detected, and communication quality can be maintained at a high level.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit block diagram of a digital wireless telephone according to an embodiment of the present invention. FIG. 2 is an explanatory diagram of communication timing in a time division multiplexing system. FIG. 3 is an explanatory diagram of communication timing of the digital wireless telephone according to one embodiment of the present invention. FIG. 4 is an explanatory diagram of communication timing of the digital wireless telephone according to one embodiment of the present invention. FIG. 5 is an explanatory diagram of communication timing of the digital wireless telephone according to one embodiment of the present invention. FIG. 6 is a circuit block diagram of a conventional digital wireless telephone. [Description of Signs] 3 Switch circuit 4 Modulator circuit 9 Demodulator circuit 10 Switch circuit 13 Digital data determination circuit

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B 1/38-1/58 H04B 7/24-7/26 H04B 17/00-17/02 H04Q 7 / 00-7/38 H04L 1/00-1/24

Claims (1)

(57) [Claims 1] In a digital wireless telephone set for making a telephone call by a time division multiplex transmission system, the transmission side digital data before modulation is compared with the reception side digital data after demodulation, and both are compared. Digital data determination means for determining whether or not they match is provided, and the antenna is connected during the transmission slot time of the own station.
In the transmission / reception switching circuit, a radio frequency transmission signal leaking from the transmission side circuit to the reception side circuit is demodulated by the reception side circuit, and the demodulated digital data is compared with the transmission digital data by the digital data determination means. with a configuration for detecting a data error, the signal from the communication counter station received by the antenna
Is demodulated by the demodulation means of the receiving circuit, and the demodulated
The digital data of the communication partner station is supplied to the modulation means of the transmitter circuit.
Switching switch means for supplying the digital data to the communication opposite station obtained by the switching switch means.
The data is modulated by the modulation means of the transmission side circuit,
Transmit the modulated signal to the transmission
By returning to the opposite station in the lot section,
The opposite station demodulates the return signal and returns the return digital signal.
Error between the digital data and the transmitted digital data
A digital wireless telephone characterized by having a configuration capable of detecting an error.