KR101433003B1 - Energy-aware devices and an interface between the device OS powered device - Google Patents

Abstract

The present invention recognizes the use of electric energy of household electric appliances or information communication devices (computers, servers, network devices, smart household appliances, etc.) using electric energy, .
To this end, the present invention provides an interface device between an energy-aware device and an OS-equipped device, comprising a short-range wireless communication unit having two channels secured, and a channel configured as a data network for transmitting energy-aware information and control information, One wireless communication channel is constituted by a control network for transmitting a unidirectional top-down signal operated in a broadcasting system for transmitting a control signal.

Description

[0001] The present invention relates to an energy-aware device and an OS-equipped device,

The present invention relates to a system and method for recognizing the use of electric energy in electrical household appliances or information communication devices (computers, servers, network devices, smart home appliances, etc.) using electric energy, And an interface device between the devices.

In particular, the present invention can be managed by using a wired / wireless network between power management apparatuses for recognizing energy use, and a conventional wired method has been mainly used. The wireless communication technology secured by two channels transmits / To an interface device.

The present invention has been derived from research carried out as part of the Ministry of Knowledge Economy's industrial convergence technology business. [Task Number: 10041753, Title: Development of core source technology that can save energy more than 30%]

Measurement information between energy cognition technology and operating system software that can detect the current state of energy use in devices (computer, server, microcomputer, information communication device, smart TV, smart home appliance, smart phone, etc.) And an interface for transmitting and receiving control information.

Especially, it is a technology to simultaneously transmit data and control signals by applying wireless communication technology.

Due to the increase in the number of information and communication devices, the energy consumption due to the information and communication devices in the enterprise and the home is increasing, and the efficient and optimal energy management technology is needed.

In particular, based on energy cognition technology, energy use patterns can be analyzed and energy can be saved by managing the energy according to the work contents of the equipment used in the load. In this case, it is important to communicate between the energy cognition device and the device on which the operating system is mounted. With respect to the wireless communication technology, two channels of the Zigbee used in the USN can be connected and managed by a plurality of electric energy- .

Power supply, which is one of the energy cognition devices, is a device that supplies electricity necessary for each part of information communication equipment and is a necessary device in tele communication equipment. The quality of a power supply is directly related to the quality of an information communication device. Recently, there has been a demand for an intelligent power supply device that measures a high efficiency power supply device and power consumption and controls as needed in connection with energy saving.

The power supply unit including the energy cognition function of the information communication equipment is a device that converts the power supply characteristic so that the input AC power can be used in a specific load device. In particular, it is a device that converts AC power to DC power used in information communication equipment.

Currently, power supply in information communication equipments is using two methods: dropper method which requires high voltage stability while consuming low power, and switching method which enables high efficiency. The power amount of the input power portion and the output portion thereof is recognized and correlated with the property information of the load.

The application of energy cognition technology of information communication equipments equipped with operating system software using a conventional analog type power supply has been partially utilized. This also has a spatial limitation by configuring a network between various devices by serial communication. In order to replace this with wireless communication, it has not been possible to transmit a physical control signal or an alarm signal through the data line of the wireless communication.

Accordingly, the present invention as described above is to provide a wireless communication system capable of recognizing the use of electric energy of household electric appliances or information communication devices using electric energy, The object of the present invention is to enable a control signal, which should be transmitted in real time when using a communication network, to immediately communicate with a plurality of devices.

According to an aspect of the present invention, there is provided an interface device between an energy-aware device and an OS-equipped device, And a data network for transmitting energy cognition information and control information, and the other wireless communication channel is composed of a unidirectional wireless communication unit operating with a broadcasting scheme for transmitting a control signal, And a control network for transmitting a top-down signal.

The present invention also relates to a method and apparatus for transmitting measurement information of an energy-aware apparatus, transmitting an instruction for controlling an energy-aware apparatus, and transmitting setting information through a bidirectional data network of short-range wireless communication, And a function of transmitting an instruction and an alarm signal.

In the present invention, when a plurality of energy-aware devices are connected by short-range wireless communication, the devices are grouped by group address into energy-aware devices, and when there are a plurality of energy-aware modules in the same device, Are used in combination.

In addition, the present invention provides an internal 2-channel short-range wireless communication network in the middle in order to construct a network outside the wireless reachable distance of the short-range wireless communication network, and connects to an external network based on an IP address system, And an EMS (Energy Management System) gateway for relaying information with the OS-equipped apparatus.

Therefore, in order to transmit / receive energy measurement information and control information to / from the energy-aware device and the OS-installed information communication device, the present invention provides a method of transmitting / receiving data for bidirectional communication and for limiting or blocking power of a specific channel of a specific energy- An alarm signal for notifying the control signal and the abnormality of the energy cognitive device in real time must be separately provided.

To solve this problem, two channels of Zigbee communication used in USN (Ubiquitous Sensor Network) are allocated to communicate with a plurality of energy aware devices.

Due to the nature of Zigbee communication, the number of management devices is limited for simultaneous connection of multiple energy aware devices. However, if two channels are used to broadcast on one channel and two channels on one channel, physical addressing is allowed It is possible to communicate with as many energy-aware devices as the number of ranges.

In particular, when a USN network is used as a data channel, there is a problem that a communication state of another device must be checked and a standby state is required in order to transmit a real-time control signal. This is a separate batch transmission method in which a channel is separated, It is possible to secure the property.

Since Zigbee's wireless communication distance is within a few tens of meters, it is necessary to connect the EMS gateway to the EMS gateway in order to link the energy aware device to the physically distributed area. It can be solved by using external network.

1 is a configuration diagram of an interface device between an energy-aware device and an OS-equipped device according to the present invention.
2 is a configuration diagram of a multi-energy perceptual communication method applied through a Zigbee gateway.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating an interface device between an energy-sensing device and an OS-equipped device according to the present invention. The interface device includes a network interface device, a lower-stage MCU, a 2-channel ZigBee interface, an interface section, a PWM section, a power stage section, Physical Address portion.

The network interface (I / F) device is an interface between an OS-equipped information communication device and an energy-aware device. The network interface device has an IP address system and utilizes a wireless network such as a wired or wireless LAN, So that they can be connected.

The lower MCU is a main microcomputer of the EMS gateway, which plays a role of relaying an external network and an internal network and stores setting information of devices to which energy recognition technology is applied connected to the internal network. You can also monitor the status of internal devices.

The two-channel Zigbee interface is a communication module for distributing data signals and control signals for constructing an internal network of an energy-aware device to two channels and processing the signals. The two-way data communication is for bidirectional data communication used in a general wireless communication protocol To transmit measurement information or to transmit a control command. The transmission of this information can result in a time delay depending on the number of concurrent access energy aware devices. Another channel is used as a channel for transmitting control signals and alarm signals that require urgency. In addition, in order to improve the efficiency of the entire network when there is no change in the measurement information of the energy-aware apparatus or a new control command, it is possible to transmit the activation and deactivation of the data signal transmission channel of the energy-aware apparatus dispersed by using this channel.

The reference unit is a circuit for generating a reference voltage for energy conversion in an apparatus performing an energy cognitive function.

The PWM unit performs a function of constantly supplying the output voltage in a predetermined error range allowed by the load of the output voltage through pulse width modulation (Pulse Width Modulation). The PWM unit is an information communication device The voltage is fluctuated when the load of the battery is fluctuated, and the voltage is controlled through the device to be controlled by the MCU.

The power stage unit includes a switching circuit unit and a high-frequency circuit unit, and is a circuit for controlling output voltage and current in a power management apparatus including an energy-aware function. And switches and outputs the voltage generated through the rectifying circuit through the switching element. Allows switching at high speeds of several tens of kHz or more for power supply performance. The switching operation is related to the adjustment of the output voltage and is controlled by a control method called PWM. The square wave generated by the switching through the step-down transformer functions to lower the voltage easily by the DC output. The use of multiple capacitors is made possible by converting the voltage generated by the step-down transformer to the voltage required by the load.

The power switch unit is a circuit for turning on / off the DC output by a control command.

The ADC is a device for converting an analog signal to a digital signal for measuring a voltage and current temperature value.

The MCU is a microcomputer for central control of the energy cognition apparatus. The MCU collects voltage and current information measured at the input and output stages, maintains the voltage constant through PWM based on the collected measurement information, and monitors the measurement information remotely So that it can be transmitted. In addition, nonvolatile memory is built in or used externally to store configuration information.

The physical address unit is a circuit for managing the unique address system of the energy cognitive device. The address system is composed of a group address and a channel address. The group address is a device address of the energy cognition device. The channel address is an input To set the channel address of each angle.

2 is a configuration diagram of a multi-energy perceptual communication method applied through a Zigbee gateway.

Referring to FIG. 2, a multi-energy aware device communication scheme configuration through a Zigbee gateway is composed of an OS-equipped device, an EMS gateway, and an energy application device.

The OS onboard device is a device in which a load consuming energy is used, and is a target device for saving energy by applying energy cognition technology. It is also a device that displays energy usage status and inputs necessary control command or setting information based on the information collected from the energy-aware device.

The EMS (Energy Management System) gateway is a device that acts as an intermediary between an energy-aware device of an energy management system and an OS-based device. It groups a plurality of energy-aware devices into a short-range wireless communication method, . In this case, Zigbee communication is used for the near-field communication, and the communication between the actual energy-aware device and the OS-equipped device is composed of a data network capable of bidirectional communication and a control network ensuring real-time immediacy. And a function of backing up a set value of a plurality of energy-aware devices connected to the lower part of the gateway. Thus, before the entire network is connected, it is possible to smoothly operate the energy-aware device by downloading the necessary setting information by only connecting the gateway and the energy-aware device. Also, the measurement information coming from the energy- And stores information temporarily in case of a failure.

The Energy Aware Device exists as an energy-aware device in the form of a measurement module, a control module, and a communication module in a power conversion device.

Claims (5)

1. An interface device between an energy-aware device and an OS-equipped device, comprising:
A short range wireless communication unit in which two channels are secured between the energy cognitive device and the OS equipped device,
In order to establish a network outside the wireless coverage area of the short-range wireless communication network, an internal 2-channel short-range wireless communication network is provided in the middle, and an external network based on an IP address scheme, which is an external Internet address, And an EMS (Energy Management System) gateway for relaying information of the EMS,
If there are a plurality of energy cognitive devices, the devices are grouped by the group address into the addresses of the energy cognitive devices when they are connected by short-range wireless communication. If there are a plurality of energy cognitive modules in the same energy cognitive device, Addresses in combination,
The EMS gateway performs a function of backing up the set values of the plurality of energy aware devices connected to the EMS gateway and temporarily storing the measurement information to be received from the energy aware device in case of a temporary communication failure with the OS loading device An interface device between an energy cognitive device and an OS-equipped device. The method according to claim 1,
And a control network for transmitting unidirectional top-down signals by operating one channel in two directions in the short-range wireless communication unit and one channel in a broadcasting mode. Interface device. The method according to claim 1,
Transmitting the measurement information of the energy-aware device through the bidirectional data network of the short-range wireless communication, transmitting the command for controlling the energy-aware device, and transmitting the setting information, and using the control network, To the interface between the energy-aware device and the OS-equipped device. delete delete

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