JPH024176B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a wireless device that operates a transmitter that modulates and high-frequency amplifies an input signal using an internal power source and an external power source.

[Conventional technology]

A conventional wireless device of this type is shown in FIG. In FIG. 1, 1 is a transmitter that receives the audio signal that has entered the microphone 2 as an input signal, modulates this input signal, amplifies it to high frequency, and outputs it to the antenna 3; 4 demodulates the radio wave that has entered the antenna 3; 6 is a transmitting/receiving switch that selectively operates the transmitting section 1 and the receiving section 4, and as shown in the figure, when connected to the transmitting side, the transmitting section 1 becomes operational and the opposite is activated. When connected to the receiving side, the receiving section 4 becomes operational. 7 is an external power supply connection terminal connected to an external power supply 8; 9 is a relay connected to this external power supply connection terminal; 9a is a contact point of this relay, which together with the relay 9 constitutes a changeover switch means;
When the internal power source 10 is connected to the transmitter 1 and the receiver 4 and the external power source 8 is connected to the external power connection terminal 7, the relay 9 is activated.
Since the contact 9a is switched, the external power supply 8 is connected to the transmitter 1.
and is connected to the receiving section 4 by switching. 11
is connected to the external power supply connection terminal 7 through a filter 12 consisting of a capacitor 12a and a coil 12b, and operates to charge the internal power supply 10 when the external power supply 8 is connected to the external power supply connection terminal 7.
It is a DC/DC converter.

Next, the operation of the wireless device configured in this manner will be explained. First, connect the external power supply terminal 7 to the external power supply 8.
is connected, the external power source 8 is supplied to the transmitter 1 and the receiver 4 through the relay 9 and its contact 9a. At this time, when the transmitter/receiver switch 6 is set to the transmitter side, the transmitter 1 becomes operational.
The audio signal entering the microphone 2 is modulated and high-frequency amplified by the transmitter 1, and then radiated from the antenna 3. Also, when the transmission/reception switch 6 is switched to the receiving side, the receiving section 4
becomes operational, and the radio waves received from the antenna 3 are demodulated by the receiver 4 and output as audio from the speaker 5.

On the other hand, the DC/DC converter 11 has a filter 12
The device operates because the external power source 8 is supplied from the external power source terminal 7 via the external power source terminal 7, and charges the internal power source 10 with the adjusted current and voltage while the external power source 8 is connected. At this time, switching or oscillation ripple is generated from the DC/DC converter 11, and the filter 12
This is to remove the generated switching or oscillation ripple.

Next, when the external power supply 8 is removed from the external power supply terminal 7, the relay 9 is no longer operated, the relay contact 9a is switched and connected to the internal power supply 10, and the internal power supply 10 is supplied to the transmitter 1 and the receiver 4. That will happen. Then, the transmitter 1 and the receiver 4 operate in the same manner as when the external power supply 8 is supplied. On the other hand, the DC/DC converter 11 ceases to operate due to the lack of input power.

However, in the wireless device configured in this manner, the DC/DC converter 11 is always operating during the period when the external power supply 8 is connected to the external power supply terminal 7. Switching or oscillation ripples occur during this period, which particularly affects the transmitter 1. In other words, when the oscillation ripple from the DC/DC converter 11 is applied via the power line to a circuit that is directly connected to the power line, such as the high frequency output amplifier in the transmitter 1, the output will be as shown in Figure 2. Unnecessary spurious waves are generated with respect to the fundamental wave, and unnecessary radiation is generated from the antenna. Therefore, in this device, a filter 12 is connected to the input side of the DC/DC converter 11 to remove switching or oscillation ripples from being applied to the power supply line, but even if this filter 12 is small, However, there is a problem that the removal effect is small, and it is necessary to increase the size to increase the removal effect.Also, even if a large one is used, the removal effect will be reduced due to loss of capacitor capacity at low temperatures. This was problematic.

[Summary of the invention]

This invention has been made in view of the above points, and in a device in which the transmitting section is operated by an internal power source and an external power source and the internal power source is charged by the external power source via a DC/DC converter, the operating signal of the transmitting section is In response to this, a switch means for stopping the operation of the DC/DC converter is provided, and the DC/DC converter 11 is stopped during the period when the output is output from the transmitter.
This paper proposes a wireless device that is free from the effects of DC/DC converter switching or oscillation ripple.

[Embodiments of the invention]

An embodiment of the present invention will be described below based on FIG.
is connected to the transmitter side, the switch means receives the connection as an operation signal of the transmitter 1 and stops the operation of the DC/DC converter, for example, operates in synchronization with the transmitter/receiver switch 6, DC／
A switch that disconnects the DC converter 11 and the external power supply terminal 7 may be used. In this case, the DC/DC converter 11 is connected to the external power supply terminal 7 without going through the filter 12 as shown in FIG.

Next, the operation of the wireless device configured in this manner will be explained. First, assuming that the external power supply 8 is connected to the external power supply terminal 7, the external power supply 8 is supplied by the transmitter 1 and the receiver 4 through the relay 9 and its contact 9a. At this time, when the transmitter/receiver switch 6 is set to the transmitter side, the transmitter 1 becomes operational, and the audio signal entering the microphone is modulated and high-frequency amplified by the transmitter 1, and then radiated from the antenna 3. It is. On the other hand, the switch means 13 stops the operation of the DC/DC converter 11 based on being connected to the transmission side of the transmission/reception changeover switch 6. Therefore, while the transmitter 1 is in operation, it is not affected by switching or oscillation ripples of the DC/DC converter 11, and the output from the transmitter 1 is free of unnecessary spurious signals as shown in FIG. It doesn't exist at all.

Furthermore, when the transmitting/receiving switch 6 is switched to the receiving side, the receiving section 4 becomes operational, and the radio waves received from the antenna 3 are demodulated by the receiving section 4.
This is output as audio from the speaker 5. On the other hand, the switch means 13 enables the DC/DC converter 11 to operate due to the transmission/reception changeover switch 6 being connected to the receiving side. The internal power supply 10 is charged by the adjusted current and voltage.

Next, when the external power supply 8 is removed from the external power supply terminal 7, the relay 9 is no longer operated and the internal power supply 10 is supplied to the relay contact 9a. The transmitter 1 and the receiver 4 are connected to an external power source 8.
It will operate in the same way as if it were supplied. On the other hand, the DC/DC converter 11 ceases to operate due to the lack of input power.

In addition, in the above embodiment, the switch means 1
3, the DC/DC converter 11 is activated or deactivated based on the transmission/reception switching switch 6.However, the current during transmission in the transmitting section is detected by a reed switch, etc., and when the current during transmission increases, the reed switch is activated. etc. may operate to stop the DC/DC converter 11, in short, the transmitter 1
The present invention is not limited to the above embodiment as long as the switch means stops the operation of the DC/DC converter 11 upon receiving the operation signal.

〔Effect of the invention〕

As described above, in the present invention, the transmitter is operated by an internal power source and an external power source, and is operated by an external power source.
In a wireless device that charges the internal power supply via a DC/DC converter, it receives an operation signal from the transmitter.
Since a switch means is provided to stop the operation of the DC/DC converter, it is possible to obtain an output from the transmitter that is completely unaffected by switching of the DC/DC converter or oscillation ripple during the period when the output is output from the transmitter. It is effective.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing a conventional wireless device, FIG. 2 is a spectrum diagram of radio waves emitted from the antenna 3 of the device shown in FIG. 1, FIG. 3 is a circuit diagram showing an embodiment of the present invention, and FIG. The figure is a spectrum diagram of radio waves emitted from the antenna 3 of FIG. 3. In the figure, 1 is a transmitter, 6 is a transmission/reception switch, 7 is an external power supply terminal, 8 is an external power supply, 9 is a relay, 9a is its contact, 10 is an internal power supply, and 11 is a
The DC/DC converter 13 is a switching means. Note that the same reference numerals in each figure indicate the same or corresponding parts.

Claims (1)

[Claims] 1. A transmitter that modulates and high-frequency amplifies an input signal, an external power supply terminal to which an external power supply is connected, an internal power supply connected to the transmitter, and an external power supply connected to the external power supply terminal. A changeover switch means for switching and connecting an external power source to the transmitter, a DC/DC converter connected to the external power source to charge the internal power source, and a DC/DC converter connected to the external power source to charge the internal power source;
A wireless device equipped with a switch that stops the operation of a DC/DC converter. 2. The wireless device according to claim 1, wherein the operation signal of the transmitter inputted to the switch means is an on signal based on a switch for operating the transmitter. 3. The wireless device according to claim 1, wherein the operating signal of the transmitter inputted to the switch means is a current at the time of transmission in the transmitter.