JPS6289427A - Electric source supply circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a power supply circuit, and more particularly to a power supply circuit that operates a power switch of a load circuit via a power supply line.

[Technical background of the invention and its problems]

The wire type of the power line installed between the power supply and the load circuit is determined by the current capacity of the load circuit. A power switch is provided on the power supply side or load circuit side. When a first load circuit and a second load circuit are provided and power is supplied as necessary, a power switch is provided corresponding to each load circuit. In this case, the power switches will be installed centrally on the operation panel, etc. If wire types with different current capacities are used for the power line, the wiring of the power line going in and out of the back of the operation panel becomes complicated and maintenance is required.

Since this would make inspection difficult, the power line is not connected to the operation panel, the power switch is formed with a relay, etc., and the control line that operates this relay is drawn into the operation panel.

As shown in FIG. 1, the case of a wireless communication device installed in a car may not be installed near the cockpit.

Furthermore, in view of the mounting position of the antenna, the radio communication device main body 2 may be installed in the rear trunk or the like, and the control unit 3 for controlling the radio communication device may be provided near the cockpit. In this case, the power lines Ll, L used for the wireless communication device main body 2 are wires with a larger flow capacity than the power supply fin La used in the control unit 3. The current answer is a small line of wire m admonition L.

Power line 1.1 is a wire type with large current capacity. L.

Branches from branch point Y. When the power line LQ (not shown) of another load circuit is branched to the power line L1, it is branched from another branch point Yn (not shown). In FIG. 1, numeral 1 is a battery, and ANT is an antenna. Branching point Y
I Yn... position power supply line L1+L,,L,IL
Wire type of n...' *Type of power switch, location of installation (key, relay, etc.) 1'* Wood is complicated, wiring, etc.
It has drawbacks such as not being easy to maintain.

[Purpose of the invention]

In view of the above-mentioned points, the present invention also makes it possible to control the power switch of the load circuit via the power line, and to simplify the wiring, configuration, and maintenance by omitting the control line related to the power switch. The purpose of this invention is to provide a power supply circuit with

[Summary of the invention]

The present invention is provided with a power supply fluctuation/disconnection signal sending means for transmitting a power supply fluctuation/disconnection signal to the power supply line. Further, a receiving means for receiving a power supply cutoff/off signal and a power switch corresponding to this receiving means are integrated and provided.

[Embodiments of the invention]

Hereinafter, one embodiment of the power supply circuit according to the present invention will be described in detail with reference to the drawings.

Components that are the same in FIG. 1 and FIG. 2 are designated by the same reference numerals, so their explanation will be omitted. In addition, the power line L1 r
Ls e Ls, terminal 1 az 2 a t 3
a e4 m + 4 b r 4 The reference potential point side corresponding to e is L12゜L'j r Li'l +
I'l e 2'lL l 3'a + 4'& +
4'b *4/C is given, so the explanation will be omitted.

In FIG. 2, 1 is a battery. The battery 1 supplies power to the automobile electrical circuit AtJT serving as a load circuit, the wireless communication device body 2, and the control unit 3. Automotive electrical circuit A
UT bundles are organized during the manufacturing process.

Wiring work for power lines LX + LH*L$ related to the wireless communication device main body 2 and the control unit 3 is performed separately.

A power supply unit 4 is provided at the branch point Y shown in FIG.

The power supply oscillation/cutoff signal f0 is 100 provided in the control unit 3.
It is generated by a kHz oscillator 10. The control unit 3 is provided with a power switch 9 that is manually opened and closed.
The power supply line Ls drawn directly through atl- is closed. When the power switch 9 is closed, the power supply 1B is supplied to the modem 11, the frequency selection dial 12, the up/down button 13, the microphone 14, the speaker 15, etc., which are load circuits, via the check coil 3L. Further, the 100 kHz oscillator 10 starts oscillating and sends a power supply oscillation/cutoff signal f0 to the power supply line L. Power supply vibration/disconnection signal/, carrier wave f! used for U modem 11! Trust different frequencies.

A choke coil 2L provided in the wireless communication device main body 2 and a power supply unit 4 provided in the power supply unit 4.
Power line L-o with Kucoil 4L.

The constants of the zero check coils 2L, 3L, and 4L, which form one network with L, , L, are determined so that this net seek can correspond to the power supply vibration/cutoff signal /0 and the carrier wave f1.

A power supply fluctuation/disconnection signal receiving means and a received power supply fluctuation/disconnection signal f.
The power switch that operates according to 0 is the power supply unit 4.
to be integrated and formed. 1b1 to the thin power line L port]
100 kHz sent from terminal 3a of control unit 3
z (The D power supply fluctuation/off signal f0 is input to the tone detector 6 via the terminal 4c of the power supply unit 4 and the sensor 5.The tone detector 6 receives only the power supply fluctuation/lfi signal f0 of 100k). It is configured to detect.

The detected t-source vibration/break signal is rectified and output to the relay drive circuit 7. Relay drive circuit 7 drives power switch relay 8 .

By driving, terminal 1 & of battery 1, thick power line L1, terminal 4m, chimney coil 4L, power switch joint '#L
Terminal 8 of device 8, closed contact, terminal 8b, terminal 4b
, the thick power line Ll, and the circuit leading to the terminal 2a of the wireless communication device main body 2 are completed, and the power source 1B is supplied to the wireless communication device main body 2.

Since the power supply oscillation/cutoff signal f0 is always sent out, if there is an abnormality in the control unit 3, the power switch relay 8 is immediately restored. When the power failure/disconnection signal f0 is disconnected, the tone detector does not consume the '11 current.

No.f for it power failure. The relay drive circuit 6 or the power switch relay 8 may be provided with a self-holding circuit consisting of a time constant circuit. When controlling the tone R chikumero using the power failure signal and the electrolytic erosion signal, the circuit is configured to operate safely in the event of an abnormality. Further, different power failure/disconnection signals fn may be used corresponding to a plurality of load circuits.

〔Effect of the invention〕

The power supply circuit according to the present invention includes a power failure/disconnection (No. Since it has a configuration that includes a power switch that operates according to the S connection/disconnection signal, and an A power switch using the above has the effect that the control #M corresponding to the relay can be omitted, and the installation position of the relay can be freely selected.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a power supply and load circuit installed in an automobile, and FIG. 2 is a block diagram showing one embodiment of a power supply circuit according to the present invention. In the figure, l is a battery, 2 is a wireless communication device body, 3 is a control unit, 4 is a power supply unit, 5 is a capacitor, 6 is a tone detector, 7 is a relay drive circuit, 8
Relay for Fi power switch, 9 is power switch, 10 is 100 kHz oscillator, 11.16 is modem, 12 is frequency selection dial, 13 is up/down button, 14 is microphone, 15 is speaker, 17 is transmitting/receiving circuit, 2L, 3L. 4L is a chic coil. % fraudulent applicant Yaesu Musen Co., Ltd. Figure 1 NT Figure 2

Claims (1)

[Claims] 1. It is equipped with a power source, a power line connecting the power source to the load circuit, and a power switch related to the load circuit, and is configured to supply power to the load circuit via the power line in accordance with the operation of the power switch. In the power supply circuit, a power connection/disconnection signal sending means for sending a power connection/disconnection signal to the power line, a power connection/disconnection signal receiving means for receiving the power connection/disconnection signal, and a power connection/disconnection signal receiving means for receiving the power connection/disconnection signal. 1. A power supply circuit comprising: the above-mentioned power switch that operates in response to a signal, and configured to supply power via a power line to a load circuit by operating the power switch.