KR20000012507U - Meter Transceiver - Google Patents

Abstract

The present invention relates to an apparatus for improving the transmission and reception function of the meter. In the related art, when the transmitter / receiver of the meter is defective and the noise is inserted into the meter information or the meter information is distorted during the modulation process for transmitting the meter information to the air, the meter cannot receive accurate meter information. In addition, in order for the meter to properly perform the request of the meter, the transmitter / receiver of the meter must correctly receive information requiring the meter to be read by the meter. Accordingly, in the present invention, the meter information to be transmitted when the meter information is transmitted to the meter is modulated using an oscillator and a PLL, and then amplified. In addition, after receiving the modulated metering request information from the metering device, the received metering request information is bandpass filtered and low noise amplified, and then converted into an intermediate frequency and demodulated using an oscillator and a PLL. Therefore, there is an effect that the transmission and reception reliability of the meter is improved.

Description

Meter Transceiver

The present invention relates to a transmitter and receiver for a meter, and more particularly, to an apparatus for improving a transmitter and receiver function.

The Automatic Meter Reading System (AMRS) is a service that allows meter readers to read meter usage automatically using wireless communication from a remote location without visiting the home.

1) Reduction of labor cost by automation of meter reading and bill issuance

2) Determination of load characteristics using fast and accurate meter reading

3) Free installation position of meter and economical installation of piping and wiring

4) Settlement can be done immediately upon moving in

5) Prevention of crime pretending to be meter reader

6) Prevention of charge collection due to meter reading mistake

7) Prevent challenge with accurate meter reading

The conventional meter reads the amount of power used based on the request of the meter reading information of the meter, converts the meter reading information into a predetermined format, and sends the meter reading information to the requested meter. At this time, in order to transmit to the meter, a transmitter / receiver installed in the meter is used. At this time, the amount of current used is detected at the position (near the meter) just before the lead wire is connected to the load and converted into a digital signal to be used as the amount of power information.

Therefore, the meter reading and transmission performance must be good so that the meter reading information is accurately transmitted to the meter. If the transmitter / receiver of the meter is defective and noise is inserted into the meter information or the meter information is distorted during the modulation process for transmitting the meter information to the air, the meter cannot receive accurate meter information. In addition, in order for the meter to properly perform the request of the meter, the transmitter / receiver of the meter must correctly receive information requiring the meter to be read by the meter.

The present invention has been made to solve the above-mentioned drawbacks of the prior art, and amplifies and amplifies the meter information to be transmitted when the meter information is transmitted by using an oscillator and a phase locked loop (PLL). Provides a transmitter and receiver of the meter. In addition, the present invention provides a transmitter / receiver of a meter for band-pass filtering and low-noise amplifying the received metering request information upon reception of modulated metering request information from the meter, and converting and demodulating it to an intermediate frequency using an oscillator and a PLL. There is a purpose.

In accordance with an aspect of the present invention, a meter having a transceiver includes: a frequency modulator configured to frequency modulate meter reading information using an oscillator and a PLL; A low pass filter having one end connected to a stunned antenna and passing a signal corresponding to an airwave used by the transceiver; A switching unit which switches the other end of the low pass filter and the output end of the frequency modulator in a transmission mode and switches the other end and a specific end of the low pass filter in a reception mode; An intermediate frequency generator for receiving frequency-modulated metering request information provided through a specific stage of the switching unit and converting the intermediate frequency into an intermediate frequency using an oscillator and a PLL; And a demodulator configured to receive and demodulate an intermediate frequency from the intermediate frequency generator.

1 is a block diagram showing an embodiment of a meter according to the present invention,

FIG. 2 is a block diagram illustrating an embodiment of a transceiver shown in FIG. 1. FIG.

Explanation of symbols for main parts of the drawings

43: meter 44: micom

45: transceiver 46: antenna

47: storage unit 48: display unit

52: frequency modulator 54: power amplifier

56: low pass filter 58: switching unit

60, 66: band pass filter 62: low noise amplifier

64: intermediate frequency generator 68: demodulator

Hereinafter, an embodiment of the present invention for achieving the above object will be described in detail.

1 is a block diagram showing an embodiment of a meter according to the present invention, the meter 43, the microcomputer 44, the transceiver 45, the antenna 46, the storage 47, and the display 48 It consists of.

In the figure, the meter reading unit 43 reads the amount of power used, converts it into a digital signal, and provides it to the microcomputer 44.

The microcomputer 44 receives the digital meter signal from the meter reader 43 and stores the digital meter signal in the storage 47. The microcomputer 44 also extracts the pre-stored meter data from the storage unit 47 and transmits the transceiver 45 and the antenna 46 to the meter (not shown in the figure).

The transceiver 45 communicates with the meter through the antenna 46.

The storage unit 47 is composed of a memory such as an electrically erasable read only memory (EEROM), and is controlled by the microcomputer 44.

The display unit 48 includes a liquid crystal display (LCD) or the like, and displays information according to the meter reading such as the amount of power used so far under the control of the microcomputer 44, so that the meter reader or the inhabitants can view the meter. Make sure

FIG. 2 is a block diagram showing an embodiment of the transceiver 45 shown in FIG. 1, which includes a frequency modulator 52, a power amplifier 54, a low pass filter 56, a switch 58, and a band. It consists of a pass filter 60, 66, a low noise amplifier 62, an intermediate frequency generator 64, and a demodulator 68.

In the figure, the frequency modulator 52 is composed of an oscillator and a PLL to frequency modulate the meter reading information provided from the microcomputer 44. At this time, the PLL is a circuit for controlling feedback by comparing the input frequency and the signal of the voltage controlled oscillator so that the output oscillation frequency matches the input frequency.

The power amplifier 54 amplifies the power of the frequency modulated signal of the frequency modulator 52 and sets an output level to be sent to the air. At this time, the output level should be limited so as not to cause radio interference in the surroundings.

The low pass filter 56 passes only signals corresponding to the airwaves used by the transceiver.

The switching unit 58 switches the outputs of the low pass filter 56 and the power amplifying unit 54 in the transmission mode so that the output of the power amplifying unit 54 is airborne through the low pass filter 56 and the antenna 38. To be sent out. In addition, the switching unit 58 switches the inputs of the low pass filter 56 and the band pass filter 60 in the reception mode so that the output of the low pass filter 56 is provided to the band pass filter 60.

The band pass filter 60 receives the output of the low pass filter 56 through the switching unit 58 and passes only signals of the modulation frequency band.

The low noise amplifier 62 receives the modulated frequency signal filtered from the band pass filter 60 and amplifies it with low noise.

The intermediate frequency generator 64 is composed of a mixer, an oscillator, and a PLL. The mixer converts the frequency-modulated meter reading request information provided from the low noise amplifier 62 into a middle frequency by mixing the local oscillation frequency. At this time, the intermediate frequency is generated using an oscillator and a PLL.

The band pass filter 66 passes an intermediate frequency provided from the intermediate frequency generator 64.

The demodulator 68 receives and demodulates the intermediate frequency from the band pass filter 66, converts the meter reading request information into the original digital signal, and provides it to the microcomputer 44.

As described above, the present invention uses the oscillator and the PLL to frequency-modify the meter information to be transmitted when the meter information is transmitted to the meter, and then amplifies it. In addition, after receiving the modulated metering request information from the metering device, the received metering request information is bandpass filtered and low noise amplified, and then converted into an intermediate frequency and demodulated using an oscillator and a PLL. Therefore, there is an effect that the transmission and reception reliability of the meter is improved.

Claims (1)

In the meter with a transceiver: The transmitter / receiver comprises: a frequency modulator for frequency modulating the meter information using an oscillator and a PLL; A low pass filter having one end connected to a stunned antenna and passing a signal corresponding to an airwave used by the transceiver; A switching unit which switches the other end of the low pass filter and the output end of the frequency modulator in a transmission mode and switches the other end and a specific end of the low pass filter in a reception mode; An intermediate frequency generator for receiving frequency-modulated metering request information provided through a specific stage of the switching unit and converting the intermediate frequency into an intermediate frequency using an oscillator and a PLL; And a demodulator configured to receive and demodulate an intermediate frequency from the intermediate frequency generator.