JPH0425225A - Radio communication equipment - Google Patents

Abstract

PURPOSE:To reduce the power consumption by decreasing the output of an amplifier when the use utters no word. CONSTITUTION:When a voice signal level is lower than a reference signal level, a signal representing the information is inputted to an APC(automatic power control) control circuit 19. The reference voltage in the APC control circuit 19 is selected from Vref to Vref'. In this case, the relation of Vref'<Vref exists and the reference voltage Vref' is inputted from the APC control circuit 19 to a comparator 21. On the other hand, part of a signal outputted from a power amplifier 15 detected by a detection circuit 20 is inputted to the comparator 21, in which the signal is compared with the reference voltage Vref' and the output of the comparator 21 is inputted to a voltage control circuit 22 to control the transmission output of the power amplifier 15. In such a case, since the relation of Vref'<Vref exists, the transmission output of the power amplifier 15 is decreased. Thus, the power is saved.

Description

[Detailed description of the invention] [Purpose of the invention] (Industrial application field) The present invention relates to a wireless communication device having a power saving function.

(Prior Art) In recent years, power saving measures for wireless communication devices have been considered. Currently, one method for achieving this is vOX (a voi
ce operated transmitt
er) function is known.

With this method, if the user does not speak, the transmission output of the wireless communication device is cut off, so if the wireless communication device is monitored by a base station such as a car phone, the wireless communication device must be connected to a base station that supports this function. If the system is not used within the region, it will not be effective in saving electricity, and there is no point in having this function.

Additionally, since the transmission output is cut off, if the user resumes speaking rapidly after silence, there is a delay in restarting the transmission output in response to the uttered voice, resulting in the beginning of the words being cut off. There was a case.

(Problem to be solved by the invention) In this way, the wireless communication device having the VOX function is
In order to take advantage of the functionality, it had to be used within the area of a base station capable of supporting vOX functionality.

Therefore, it is an object of the present invention to solve the above problems and to obtain a power saving effect in any area.

[Structure of the invention]

(Means for Solving the Problems) In order to achieve the above object, the present invention includes a detection means for detecting input audio and an amplification means for amplifying the signal, A wireless communication device is provided, characterized in that when no voice is detected by the amplification means, the output of the amplification means is lowered.

Note that the output of the amplifying means may be increased in response to the detection of voice by the detecting means.

(Function) In the present invention, when the user does not speak during a call, such as when the user is listening to what the other party is saying, the output of the amplifier is lowered. This reduces power consumption, making it possible to save power, and at the same time, since output is not cut off, base station monitoring can be performed.

Furthermore, when the user speaks, the output of the amplifier is increased, so there is no problem with the communication.

(Embodiment) An embodiment of the present invention will be described below by taking a car telephone device as an example.

FIG. 1 is a circuit block diagram showing the configuration of a portable unit of a car telephone device. The configuration and operation will be explained using the same figure.

The portable unit 1 includes a power source 2, a receiving section, a transmitting section, a duplexer 3, an antenna 4, and a CPU (centra).
1 processing unit)6.

The receiving section includes a receiving circuit 5, a sounding body 7, an off-hook switch 8, and an AF-AMP (au d i ).

(frequency amplifier) 9 and a receiver 10.

The transmitter includes a keypad 11, a transmitter 12, and an AF-A
MP 13, modulation circuit 14, and reference signal generation circuit 16
a comparator 18 consisting of a rectifier 17, an operational amplifier power), and an APC (automaticpOWer cont
It is composed of a roll part 23 and a force part. The reference signal generation circuit 16, rectifier 17, and comparator 18 are detection means.

The APC circuit unit 23 includes a power amplifier 15 as an amplification means, an APC control circuit 19, a detection circuit 20 consisting of a capacitor and a diode, and a comparator 21 consisting of an operational amplifier.
and a voltage control circuit 22 consisting of a transistor.

Next, the operation of incoming and outgoing calls will be explained.

A call is received as follows. The incoming call signal received by the antenna 4 is input to the receiving circuit 5 through the duplexer 3. The signal demodulated by the receiving circuit 5 is input to the CPU 6. Here, this signal is the portable unit 1
If it is determined that the dial information matches the dial information assigned to the dial information, the sounding unit 7 is controlled to output a ringing tone. At this time, when the user presses the off-duty switch 8, the CPU 6 stops the ringing sound of the sounding body 7. Then, the audio signal from the other party is transmitted to the antenna 4,
When the signal is input to the AF-AMP 9 through the duplexer 3 and the receiving circuit 5, it is amplified there and transmitted to the user's ear through the receiver 10.

Further, a call is made in the following manner. keypad 1
1, when the other party's telephone number is input, the input signal is modulated by the modulation circuit 14 through the CPU 6. The modulated input signal is amplified by a power amplifier 15 and transmitted from an antenna 4 through a duplexer 3. After sending,
When the other party responds, the call state is entered. When entering the talking state, the transmission output of the power amplifier 15 is lowered.

This will be discussed in detail later.

During a call, when the user inputs voice through the transmitter, the voice signal is amplified by the AF-AMP 13,
It is modulated by a modulation circuit 14. The audio signal is also input to the rectifier 17 and converted into a direct current. The DC-converted audio signal is input to the comparator 18 together with the reference signal from the reference signal generation circuit 16 . Here, the reference signal is a signal that becomes a reference level for determining the voice detection level. This comparator 18 compares the two signal levels.

As a result of the second comparison, if the audio signal level is equal to or higher than the reference signal level, the signal conveying that information is transmitted to the APC control circuit 19.
is input. Then, the reference voltage V ref for the normal power amplifier operating level is input from the APC control circuit 19 to the comparator 21 . In the detection circuit 20, a part of the signal output from the power amplifier 15 is extracted and detected. The signal detected by this detection circuit 20 is sent to a comparator 2
1 and is compared with the reference voltage V ref. The output of the comparator 21 is input to the voltage control circuit 22. The voltage control circuit 22 then controls the transmission output of the power amplifier 15. Here, the APC control circuit 19
Since the reference voltage Vre4 output from the power amplifier 15 is at a normal power amplifier operating level, the transmission output of the power amplifier 15 becomes normal. As a result of the above, the modulated audio signal is
The signal is amplified by the power amplifier 15 and transmitted from the antenna 4 through the duplexer 3.

On the other hand, if the voice signal level is lower than the reference signal level as a result of the comparison by the comparator 18, such as when the user is listening to the other party and does not say anything, the signal conveying that information is APC. The signal is input to the control circuit 19. In the APC control circuit 19, the reference voltage varies from V ref to Vrer''.
can be switched to

At this time, Vrer −< Vref. and,
The reference voltage Vref- is supplied from the APC control circuit 19 to the comparator 2.
1 is input. On the other hand, a part of the signal output from the power amplifier 15 detected by the detection circuit 20 is also input to the comparator 21 and compared with the reference voltage V ref. The output of the comparator 21 is input to the voltage control circuit 22. Then, the transmission output of the power amplifier 15 is controlled. In this case, since V ref < v rer, the transmission output of the power amplifier 15 becomes small. However, the transmission output of the power amplifier 15 at this time is large enough to be monitored by the base station.

When an audio signal higher than the reference signal level is input through the transmitter 12 while the transmission output is lowered as described above,
The APC control circuit 19 changes the reference voltage from Vrer- to v
As a result, the transmission output of the power amplifier 15 is increased to the normal level through the operation process described above.

Note that the reference voltage ■re4 in the APC control circuit 19
/V ref'- switching control can be controlled by hardware or software.

As described above, the transmission output of the power amplifier 15 is not cut off during a call, so it can be used even in areas where base stations cannot support the vOX function, and power can be saved.

In addition, since the output can only be lowered to a level that can be monitored by the base station, this solves the problem of (1) OX control, which occurs when a user starts speaking rapidly after silence. Therefore, it is possible to make the call smooth.

Next, a specific example of lowering the reference voltage and lowering the transmission output of the power amplifier 15 in the above embodiment will be described using numerical values.

If the transmission output of the power amplifier 15 at the time of the reference voltage V ref is P, then P-Vrer 2/R (R: resistance).

Similarly, if the transmission output when the transmission output of the power amplifier 15 is lowered by the reference voltage Vrer is P', then 2 p--Vrar /Re For example, the transmission output of the power amplifier 15 when no voice is detected. If we want to halve the value, then substitute it into the above two equations as I''-P/2, and get V rer= (v'0.5
) x Vre' is obtained. If the transmission output of the power amplifier 15 is set to 1 [W] when Vrer = 5 [V], the reference voltage V ref is obtained as (JO, 5).
If X5-3.54 [V], the output of the power amplifier 15 will be 0.5 [W].

In addition, the transmission output is generally switched between multiple levels under the control of the base station, but as mentioned above, the transmission output is
Since it is based on a reference voltage, for each reference voltage V rer for multiple output levels, (v'0.5 )
This can be handled by finding Vrer- using the formula XVre('.

As a result of the above, a power saving effect can be obtained and the usage time can be extended. In addition, since the transmitted wave is not cut off (1), the base station can continue monitoring and the call will not be dropped.Especially, if a modulated signal of about 5 [kHz] is used as a monitor, narrowband Since it is expected that the degree of FM improvement due to
no problem.

FIG. 2 is a diagram of the APC circuit section 23 when a detection circuit different from the detection circuit 20 used in FIG. 1 is used.

In the figure, the detection circuit 24 uses a directional coupler. The other components of the APC circuit section 23 are the same, and include a power amplifier 15, an APC control circuit 19, a comparator 21 made of an operational amplifier, and a voltage control circuit 22 made of a transistor.

〔Effect of the invention〕

According to the present invention, the output of the wireless communication device is lowered when no voice is detected, resulting in a power saving effect. Additionally, since the output is not cut off during a call, you can receive monitoring from the base station and can use it in any area.

[BRIEF DESCRIPTION OF THE DRAWINGS] Fig. 1 is a circuit block diagram showing the configuration of a portable unit of a car telephone device which is an example of the present invention, and Fig. 2 is a detection circuit different from the detection circuit used in Fig. 1. FIG. 3 is a diagram of an APC circuit section when the circuit is used. 6 CPU 15 Power amplifier 16 Reference signal generation circuit 17 Rectifier 18.21 Comparator 19 APC control circuit 20.24 ---Detection circuit 22 Voltage control circuit

Claims (2)

[Claims] (1) It is characterized by comprising a detection means for detecting input voice and an amplification means for amplifying the signal, and when the voice is not detected by the detection means, the output of the amplification means is lowered. wireless communication equipment. (2) The wireless communication device according to claim 1, wherein the output of the amplification means is increased in response to the detection of voice by the detection means.