JPH0720283B2 - Power receiving device for home bus system - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power receiving device for operating a terminal connected to a home bus or a part of a circuit inside the terminal by a DC power supply superimposed on the home bus. Is.

2. Description of the Related Art Conventionally, when receiving a DC power supply superimposed on a home bus, a choke transformer and a capacitor were used to receive power.

FIG. 3 shows an example of a conventional power receiving device. Reference numeral 21 denotes a home bus, and a power supply device 22 superimposes power on the home bus 21. 23 is a choke coil 23a and a capacitor 2
A power receiving device including 3b, which receives a DC power source superimposed on the home bus 21 and supplies power for operating the communication terminal 24. Communication terminal 25 is an external power supply
Powered by 26.

FIG. 4 is an equivalent circuit for analyzing the waveform distortion of the bipolar code for communication transmitted to the home bus 11 of the conventional embodiment shown in FIG. 31 is a signal source E _s of a bipolar code when the communication terminal 24 or 25 transmits. 32 is
Output impedance R _s at the time of transmission of the communication terminal 24 or 25
Is. Bipolar code signal source 31 and output impedance
32 are connected in series, and the power receiving device 23 is connected through the home bus 21.
Is connected to the choke coil 23a. Therefore, the bipolar code output from the bipolar code signal source 31 is differentiated by the output impedance 32 and the inductance L of the choke coil 23a.

FIG. 5 shows an example of the output waveform of the bipolar code signal source 31. FIG. 6 is a choke coil of the equivalent circuit shown in FIG.
It shows an example of a signal waveform on both ends of 23a, that is, on the home bus. As shown in FIG. 6, the signal waveform of the bipolar code on the home bus is a differentiated waveform,
Inconvenience occurs for normal reception.

The factors that differentiate this waveform are the output inductance 32 of the equivalent circuit of FIG. 4 and the inductance L of the choke coil 23a. The time constant τ is expressed by the following equation.

From the above equation, as R _s is smaller and L is larger, τ is larger, the differential of the bipolar code is smaller, and the signal is transmitted while being close to the original signal waveform.

Problems to be Solved by the Invention Such a conventional power receiving device has the following problems.

The inductance of the choke coil is, for example, 9600bp
In the case of a bipolar code with a transmission speed of s and a duty of 50%, a value of 500 mH or more is required, and when the power receiving capacity, that is, the current capacity and 1 A to 2 A, a thick wire conductor is placed on a very large iron core. It has to be wound and the choke coil is very large in shape.

Means for Solving the Problems The present invention is to detect a signal current by using a transformer and make a high impedance for a transmission signal.

Effect The present invention can improve the drawback that the power receiving device using the choke coil is large in size and high in cost due to the above configuration.

Embodiment FIG. 1 is an embodiment of the power receiving device of the present invention.

Reference numeral 1 denotes a power receiving device, which is mainly a transformer 4 and a current control unit 3.
It is composed by. One end of the primary winding 4a of the transformer 4 is connected to one of the home buses 2 via the terminal 7, and the other end is connected to one end of the secondary winding 4b of the transformer 4 and the emitter of the transistor 3a. Has been done.
Reference numeral 5 is a capacitor, and 6 is a resistor, which are connected in series to transfer the signal from the other end of the secondary winding 4b of the transformer 4 to the transistor 3a.
To the base of. 9 is a capacitor, the positive electrode of the capacitor 9 is connected to the collector of the transistor 3a,
It is also connected to the base of the transistor 3a via the resistor 3b. The negative electrode of the capacitor 9 is connected to the other of the home buses 2 via the terminal 8.

10 is a constant voltage circuit, a resistor 11 and a Zener diode
The voltage taken out by the power receiving device 1 is made constant by the capacitor 12 and the capacitor 13. The output of the constant voltage circuit supplies power to the power-supplied circuit 14 such as a communication terminal.

Next, the operation will be described. FIG. 2 is an operation explanatory view of the embodiment shown in FIG. When a bipolar signal such as (A) is superimposed on the home bus 2 in FIG. 2, a signal current tries to flow into the power receiving device 1 side through the terminal 7 at the time of a positive polarity pulse. When the signal current of the positive polarity pulse of the bipolar code flows through the primary winding 4a of the transformer 4 in the direction of arrow 15, a current due to the electric induction of arrow 16 flows through the secondary winding 4b. The induced current indicated by the arrow 16 decreases the base current of the transistor 3a, so that the collector-emitter voltage V _CE of the transistor 3a rises as indicated by 1 in FIG. 2 (B). Therefore, the signal current of the positive polarity pulse of the bipolar code which was about to flow into the primary winding 4a of the transformer 4 is repelled.

Similarly, when the bipolar code is a negative pulse, similarly, when a signal current flows through the primary winding 4a of the transformer 4 in the direction opposite to the arrow 15, a current due to magnetic induction flows in the secondary winding 4b in the direction opposite to the arrow 16. . This induced current increases the base current of the transistor 3a, so that the collector-emitter voltage V _CE of the transistor 3a decreases as indicated by 2 in FIG. 2 (B). Therefore, the signal current of the negative polarity pulse that was about to flow out from the primary winding 4a of the transformer 4 is pulled back.

As described above, neither the signal current of the positive polarity pulse nor the signal current of the negative polarity pulse flows in the primary winding 4a of the transformer 4, and the impedance for the bipolar code of the power receiving device viewed from the home bus 2 is almost infinite. Therefore, the influence of the bipolar code on the home bus 2 on the waveform is reduced.

Effects of the Invention As described above, the transformer required for this power receiving circuit does not need to have a large inductance value of 500 mH as in the conventional example, and magnetic coupling between the primary winding and the secondary winding is sufficient. If it is 1 mH or less, it is sufficient.

Therefore, according to the present invention, the number of windings of the transformer is very small and the shape is very small, so that power can be received without affecting the home bus.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a home bus system using a power receiving device for a home bus system according to an embodiment of the present invention, FIG. 2 is an operation waveform diagram of the device, and FIG. 3 is a home bus using a conventional power receiving device. FIG. 4 is a system configuration diagram, FIG. 4 is an equivalent circuit diagram for waveform analysis by a conventional power receiving device, FIG. 5 is an explanatory diagram of a bipolar code, and FIG. 6 is an explanatory diagram of waveform distortion. 1 ... Power receiving device, 2 ... Home bus, 3 ... Current control unit, 4 ... Transformer, 5,9,13 ... Capacitor, 3a, 6,11
...... Resistance, 7,8 ...... Terminal, 10 ...... Constant voltage circuit, 12
...... Zener diode, 14 …… Powered circuit.

Claims (1)

[Claims] 1. A home bus system in which a DC voltage is superimposed on a home bus and power is supplied from a home bus to a terminal connected to the home bus, wherein a transformer having a plurality of windings and a primary winding of the transformer are connected in series. A home bus system, comprising: a current control element that is connected and controls a direct current supplied to a load, and that controls a current flowing through the current control unit by an output signal of a secondary winding of the transformer. Power receiving device.