KR100638656B1 - Wake-up apparatus of non return to zero type - Google Patents

Abstract

An object of the present invention is to provide a non-zero return type wake-up device that is applied to electronic products for home automation, factory automation, and the like.

The non-zero return wake-up apparatus of the present invention receives a wake-up signal modulated by a non-zero return method transmitted from a radio transmitter by a receiving antenna ANT2 to wake up the radio receiver. An apparatus comprising: an electromagnetic sensor (210) electromagnetically coupled to a signal line (SL) connected to the receiving antenna (ANT2) and receiving an operating voltage (V1) to detect a signal on the signal line (SL); A controller 220 generating a wake-up signal when the signal detected by the electromagnetic sensor 210 matches a preset unique signal; And a wake-up switch 230 for supplying a wake-up voltage V2 to the wireless receiver according to the wake-up signal of the controller 220.

Wireless transceiver, wireless receiver, wake-up, electromagnetic sensor

Description

WAKE-UP APPARATUS OF NON RETURN TO ZERO TYPE}

1 is a configuration diagram of a wake-up system of a conventional radio transceiver.

2 is a block diagram of a non-zero return wake-up device according to the present invention.

Explanation of symbols on the main parts of the drawings

210: electromagnetic sensor 220: control unit

230: wake-up switch ANT2: receiving antenna

PS: Power supply unit V1, V2: Operating voltage and wake-up voltage

SL: Signal Line

The present invention relates to a wake-up device in a wireless receiver applied to electronic products for home automation, factory automation, and the like. In particular, a wake-up signal is detected and amplified using an electromagnetic sensor, and the user wakes up in a non-zero return method. The present invention relates to a non-zero return wake-up device that enables a receiver to wake up in response to a wake-up signal from a transmitter at low power, and extend the life of the receiver.

In general, as the utility of wireless communication increases, various types of connection networks in which wires and wireless are integrated are being constructed, and thus, requirements for technical specifications in the field of low-speed, low-cost, low-power wireless communication are being raised.

One of the methods for implementing such a low power is to operate in a power saving mode in which the user wakes up with a wake-up signal in the sleep mode. However, in order to wake up by the wakeup signal, an operation for periodically checking whether the wakeup signal is received and whether the received wakeup signal is its own wakeup signal should be performed.

As described above, for the confirmation operation required for wake-up, many active elements and circuits must be operated, and thus a lot of power consumption is required, and such power consumption needs to be reduced.

One of such wake-up systems of the wireless transceiver will be described with reference to FIG.

1 is a configuration diagram of a wake-up system of a conventional radio transceiver.

Referring to FIG. 1, a conventional wake-up system of a wireless transceiver includes a transmission controller 10 for controlling a wake-up of a receiver, and a transmission processor for generating and transmitting a wake-up signal under the control of the transmission controller 10. 20) and the reception control unit 40 which repeatedly switches from the sleep mode to the standby mode to control whether the user receives the wakeup signal and determines whether the received signal is his or her signal to control the wakeup. And a receiving processor 30 which receives the received signal under the control of the receiving controller 40 and performs a predetermined signal processing and provides the received signal to the receiving controller 40.

In the conventional wake-up process in the wireless transceiver, when the transmission controller 10 controls the transmission of the wake-up signal, the transmission processor 20 generates and transmits the wake-up signal.

In this case, when the reception control unit 40 switches from the sleep mode to the standby mode and controls the confirmation of the wake-up signal, the signal received by the reception processing unit 30 is amplified and filtered and received through the demodulation process. Check whether the signal is its own wake-up signal, and if it is its wake-up signal, it wakes up, and if it is not its wake-up signal, it repeatedly performs the operation of going back to the sleep mode.

As described above, the wake-up system of the conventional radio transceiver has a problem in that power consumption is high because active elements such as a mixer or an oscillator and a circuit must be operated in order to wake up and perform signal processing such as demodulation of a received signal. .

The present invention has been proposed to solve the above problems, and its object is to detect a wake-up signal using an electromagnetic sensor in a non-zero return type wake-up device applied to electronic products for home automation, factory automation, and the like. And by amplifying and recognizing the wakeup signal of the user in a non-zero return manner, the receiver can wake up in response to the wakeup signal from the transmitter at low power and extend the life of the receiver. It is to provide a wake-up device of the type.

In order to achieve the above object of the present invention, the non-zero return type wake-up device of the present invention,

A non-zero return type wake-up apparatus for receiving a wake-up signal modulated by a non-zero return method transmitted from a radio transmitter by a receiving antenna to wake up the radio receiver,

An electromagnetic sensor electromagnetically coupled to a signal line connected to the receiving antenna and receiving an operating voltage to detect a signal on the signal line;

A controller configured to generate a wake-up signal when the signal detected by the electromagnetic sensor matches a preset unique signal; And

A wakeup switch for supplying a wakeup voltage to the wireless receiver according to the wakeup signal of the controller.

Characterized in having a.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a non-zero return wake-up device according to the present invention.

Referring to FIG. 2, the non-zero return type wake-up device according to the present invention includes a receiving antenna ANT2 for receiving a wake-up signal modulated by a non-zero return (NRZ) method, and an operating voltage and a wake-up voltage V1. And a power supply unit PS for supplying V2 and an electromagnetic coupling to the signal line SL connected to the receiving antenna ANT2 and receiving an operating voltage V1 to detect a signal on the signal line SL. A control unit which receives the operating voltage V1 from the electromagnetic sensor 210 and the power supply unit PS, and generates a wake-up signal when the signal detected by the electromagnetic sensor 210 matches a predetermined unique signal. 220 and a wake-up switch 230 for supplying a wake-up voltage V2 to the wireless receiver according to the wake-up signal of the controller 220.

Herein, the wireless receiver of the present invention receives a wake-up signal from the wireless transmitter 100, and the wireless transmitter 100 modulates the wake-up signal by a non-zero return (NRZ) method. Transmit via the transmit antenna ANT1. For example, data "1,0,1" is NRZ modulated and transmitted to a signal having a "high, low, high" level. Here, the non-zero return (NRZ) method is called an OOK (On-Off keying) method.

The electromagnetic sensor 210 is electromagnetically coupled to the signal line SL connected to the reception antenna ANT2 and detects a signal on the signal line SL and from the power supply unit PS. And an amplifying unit 212 that receives an operating voltage V1 and amplifies a signal detected by the sensing unit 211 to a preset gain and outputs the amplified signal to the controller 220.

In addition, the non-zero return wake-up device of the present invention, when the wake-up signal is generated in the control unit 220, the sensor power switch 250 for blocking the operating voltage (V1) of the electromagnetic sensor 210 It includes more.

In the drawing, reference numeral 100 denotes a wake-up transmitter, and ANT1 is a transmission antenna of the wake-up transmitter.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

In the non-zero return type wake-up device of the present invention, a wake-up signal of the wireless transmitter 100 is transmitted to the wireless receiver employing the wake-up device of the present invention through the transmission antenna ANT1, and thus, The wakeup apparatus of the zero return method receives the wakeup signal from the wireless transmitter 100 and wakes up, which will be described with reference to FIG. 2.

Referring to FIG. 2, first, a wireless receiver of the present invention receives a wakeup signal from a wireless transmitter 100, and the wireless transmitter 100 returns a non-zero return (NRZ: Non Return-to-) signal. It modulates with Zero or On-Off keying (OOK) method and transmits through Transmit Antenna ANT1. For example, data "1,0,1" is NRZ modulated and transmitted to a signal having a "high, low, high" level.

At this time, the wake-up signal transmitted through the transmitting antenna ANT1 of the wireless transmitter 100 is received through the receiving antenna ANT2 of the wireless receiver. At this time, the power supply unit PS of the present invention supplies the operating voltage V1 to the electromagnetic sensor 210 and the control unit 220, and receives the wake-up voltage V2 when the wake-up signal is generated by the control unit 220. Supply to 260.

Next, the electromagnetic sensor 210 of the present invention is a sensor sensitive to electromagnetic radiation on a line through which a signal flows, and a conventional RF sensor (radio sensor) or an electromagnetic sensor may be applied, which is the reception antenna ANT2. It can detect the electromagnetic radiation of the signal flowing in the signal line (SL) connected to. The electromagnetic sensor 210 of the present invention is electromagnetically coupled to the signal line SL connected to the reception antenna ANT2 and detects a wakeup signal on the signal line SL.

For example, when the detected signal is "high, low, high", the electromagnetic sensor 210 of the present invention outputs a data level at which the following controller 220 can recognize data "1,0,1". do.

In more detail, the sensing unit 211 of the electromagnetic sensor 210 is electromagnetically coupled to the signal line SL connected to the receiving antenna ANT2 and detects a signal on the signal line SL. Output to the amplifier 212. The amplifier 212 receives the operating voltage V1 from the power supply unit PS, amplifies the signal detected by the sensing unit 211 with a preset gain, and outputs the signal to the controller 220. Here, the gain in the amplifier 212 is set to a gain capable of amplifying the wakeup signal to a magnitude recognizable by the controller 220.

Next, the control unit 220 receives the operating voltage V1 from the power supply unit PS, and generates a wakeup signal when the signal detected by the electromagnetic sensor 210 matches a preset unique signal. The first switching signal SS1 is output to the wake-up switch 230, and the second switching signal SS2 is also output to the sensor power switch 250.

On the other hand, the control unit 220 may be implemented as a MCU of the wireless receiver employing the wake-up device of the present invention, which can operate in a power saving mode to periodically receive the wake-up signal.

For example, a wakeup ID of "1,0,1" is set in advance in the wireless receiver, and a signal corresponding to data "1,0,1" is transmitted from the wireless transmitter 100. In this case, the controller 220 of the wireless receiver determines whether the received signal from the wireless transmitter 100 corresponds to its own wakeup signal, that is, corresponding to its own wakeup data "1,0,1". For example, if the wakeup signal is its own wakeup signal, the wakeup signal of the wireless receiver is controlled. If the wakeup signal is not the wakeup signal, the wakeup signal of the wireless receiver is not controlled.

Specifically, when the control unit 220 receives its wake-up signal and when the wireless receiver wakes up, the control unit 220 outputs the first switching signal SS1 to the wake-up switch 230 to provide the wake-up switch ( 230 is turned on, and the second switching signal SS2 is output to the sensor power switch 250 to turn off the sensor power switch 250.

In contrast, when the wake-up signal received by the controller 220 is not a signal of its own, the controller 220 does not control the wake-up of the wireless receiver by ignoring the received signal, which turns off the wake-up switch 230. The sensor power switch 250 continues to be kept in an on state.

Accordingly, the wakeup switch 230 is turned on by the first switching signal SS1 of the controller 220 to supply the wakeup voltage V2 from the power supply unit PS to the wireless receiver. At this time, the reception processor 260 of the wireless receiver employing the wake device of the present invention receives the wakeup voltage V2 through the wakeup switch 230 and receives the signal received through the reception antenna ANT2. Will be processed.

At the same time, the sensor power switch 250 is turned off according to the second switching signal SS2 of the controller 220, and when the wake-up signal is generated from the controller 220, the operation of the electromagnetic sensor 210 is performed. By blocking the voltage V1, power consumption of the amplifier 212 is prevented.

According to the present invention as described above, for the wake-up, since the receiving processing unit does not need to operate, it is possible to reduce the power consumption and to use an electromagnetic sensor that electromagnetically detects the wake-up signal in the signal line connected to the receiving antenna. In addition, the configuration can be simplified because there is no need to use a separate switch for switching the wakeup signal and the data signal, and after the wakeup, the power supply can be further reduced by cutting off the power supplied to the amplifier included in the electromagnetic sensor. Will be.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, but is defined by the claims, and the apparatus of the present invention may have various substitutions, modifications and It is apparent to those skilled in the art that modifications are possible.

According to the present invention as described above, in the non-zero return type wake-up device applied to electronic products for home automation, factory automation, etc., a wake-up signal is detected and amplified using an electromagnetic sensor, and a non-zero return method By recognizing the wake-up signal of its own, the receiver can wake up in response to the wake-up signal from the transmitter at low power, thereby extending the life of the receiver.

Claims (3)

A non-zero return type wake-up apparatus for receiving a wake-up signal modulated by a non-zero return method transmitted from a radio transmitter by a receiving antenna to wake up the radio receiver, An electromagnetic sensor electromagnetically coupled to a signal line connected to the receiving antenna and receiving an operating voltage to detect a signal on the signal line; A controller configured to generate a wake-up signal when the signal detected by the electromagnetic sensor matches a preset unique signal; And A wakeup switch for supplying a wakeup voltage to the wireless receiver according to the wakeup signal of the controller. Non-zero return type wake up device having a. According to claim 1, The wake-up device, A sensor power switch to cut off an operating voltage of the electromagnetic sensor when a wake-up signal is generated in the controller; Non-zero return type wake-up device further comprising a. The method of claim 1, wherein the electromagnetic sensor is A sensing unit electromagnetically coupled to a signal line connected to the receiving antenna and detecting a signal on the signal line; And An amplifier for receiving an operating voltage and amplifying the signal detected by the sensing unit to a predetermined gain and outputting the signal to the controller Wake-up device of the non-zero return method comprising a.

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