KR20050122307A - Apparatus and method for measuring power consumption - Google Patents

Abstract

An input unit configured to receive an operation mode signal from an apparatus to be measured having a different power consumption according to an operation mode; one or more power voltage supply units for supplying a power voltage that is changed in real time in response to a control signal; A power consumption measurement unit measuring voltage and power consumption supplied from each of the supply units to generate measured data values; And a control unit for generating the control signal for changing the output voltage of the at least one power voltage supply unit in real time in response to the input operation mode signal, and for processing the measured data value. An electric power measuring device is disclosed.

Accordingly, the output voltage and power consumption measurement can be actively adjusted.

Description

Power consumption measuring device and measuring method {APPARATUS AND METHOD FOR MEASURING POWER CONSUMPTION}

The present invention relates to a measuring device and a measuring method, and more particularly, to a measuring device and a measuring method capable of actively measuring the portion of the power consumed and the power consumption for each portion.

In recent years, as the spread of mobile devices such as PDAs increases, and the integration and computing power of devices constituting such devices are greatly improved according to the development of technology, battery operated mobile devices having limited capacities. Minimizing the power consumption of the components has become very important in order to extend the usage time of the device. In particular, reducing the power consumption of the CPU with the highest density generally has great importance in reducing the power consumption, and applies different power saving methods according to the operating state of the CPU, which determines the operating state of the entire system. It is necessary to do

For this reason, recently, in a system using a mobile processor such as a mobile phone or a PDA, many techniques for reducing the power consumption to use a given battery for a long time have been applied. The change in power consumption according to the change is not easy to accurately measure the power consumption when using a conventional power measurement device.

For example, if the mobile processor attempts to change the supply voltage to reduce power consumption in the idle state, the instrument cannot move the voltage in conjunction with the mobile processor in real time. In addition, voltage should be applied to each part that consumes power to be freely turned on and off for each operation state. However, existing instruments require multiple devices and cannot be interlocked with a mobile processor.

In addition, in general, the measuring instrument takes a lot of time because most of the work is performed by hand, there is a problem that the operator's mistakes are concerned. In other words, in order to change the measurement conditions of the device to be measured, there is an inconvenience of having to manually adjust them in anticipation of the measurement range of the device under measurement according to the measurement conditions. In addition, there was a problem that the accuracy of the measurement results are not guaranteed.

On the other hand, equipment that displays or analyzes the magnitude or shape of signals generated by electrical, electronic, and communication devices includes digital multimeters, oscilloscopes, frequency counters, and frequency generators. There is a problem that these measuring instruments are configured separately according to the function, so there is inconvenience of using a plurality of measuring instruments, and inefficient use of space due to the volume of the measuring equipment.

Accordingly, the technical problem of the present invention is to solve such a conventional problem, and an object of the present invention is to provide a measuring device and a measuring method capable of actively measuring the power consumption for each part.

The measuring device for realizing the above object of the present invention includes an input unit for receiving an operation mode signal from the device under measurement of different power consumption according to the operation mode; One or more power voltage supplies for supplying a variable power voltage in real time in response to a control signal; A power consumption measurement unit measuring voltage and power consumption supplied from each of the one or more power voltage supply units to generate measured data values; And a controller for generating the control signal for real-time varying the output voltage of the at least one power voltage supply unit in response to the input operation mode signal, and for processing the measured data value.

On the other hand, receiving an operation mode signal from the device to be measured different power consumption according to the operation mode; controlling at least one power voltage in real time in response to the operation mode signal; Generating measured data values by measuring the controlled power voltage and current consumption in real time; And real-time processing power consumption consumed by the apparatus under measurement in response to the measured data value.

According to the measuring device and the measuring method, power consumption of various channels of the measured device can be simultaneously measured, and the output voltage and power consumption can be actively measured by receiving a signal from the measured device.

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

1 is a block diagram showing the structure of a measuring device according to an embodiment of the present invention.

Referring to FIG. 1, the power consumption measuring apparatus 100 according to an embodiment of the present invention includes a receiver 10, a controller 20, a plurality of power channels 30, a power consumption measurer 40, and a storage device. 50 and a transmitter 60.

The measured device 200 is a device in which the power consumption is variable according to an operation mode, for example, a mobile device having various operation modes such as an idle mode and a stand-by mode for reducing power consumption, such as a mobile phone or a PDA. The processor may be an application used. When measuring the power consumption, the measured device 200 provides the measurement device 100 with an operation mode signal 202 corresponding to the changed operation mode in real time when the operation mode is changed.

The receiver 10 receives an operation mode signal 202 from the measured device 200 and provides it to the controller 20. The operation mode signal 202 includes information on a voltage value required for each channel of the measured device, and thus an information range on the prediction of the amount of current consumed by the measured device 200.

The power consumption measuring device 100 generates an output voltage having a magnitude corresponding to the information on the voltage value, provides the output voltage to each channel of the measured device 200, and measures the measured device 200 according to the provided output voltage. The power consumption of the measurement apparatus 200 is measured by measuring the magnitude of the current consumed by. In addition, the power consumption measuring apparatus 100 corresponds to the information on the prediction range of the magnitude of the current consumed by the measuring apparatus 200 according to the outgoing signal of the measuring apparatus 200. Automatically adjust the current measurement range. That is, an output voltage is generated according to the operation mode signal 202 from the measured device 200 and provided to each channel of the measured device 200, and the current measurement range of the measuring device is actively adjusted. The current consumed by the measuring device 200 is measured.

The controller 20 provides each control signal 22 to one or more power channels 30 based on the operation mode signal 202 received from the receiver 10. Specifically, the controller 20 generates an output voltage 32 used by the power channel 30 in each channel of the measured device 200 in correspondence with the information on the voltage value required for each channel. To provide the control signal 22 to the power channel 30. However, since it must be possible to adjust in real time, it must be fast enough to respond to the speed of an external signal.

In addition, the control unit 20 according to the present invention may individually control each of the power channels 30, and may provide the control signal 22 only for some power channels.

In addition, the control unit 20 receives the power consumption data measured by the power consumption measurement unit 40 and transfers it to the storage device 50 to store the measured data value and analyzes the cause of power consumption. Use it as a resource. Alternatively, the controller 20 may transmit the measured power consumption value to the transmitter 60 according to an external request and transmit the data to the outside.

The plurality of power channels 30 supply power for use in the measured device. Specifically, the power channel 30 generates an output voltage 32 for one or more channels of the device 200 to be measured based on the control signal 22. For example, the output voltage 32 can be finely adjusted with a resolution of 50 mV or less. The plurality of power channels 30 respectively correspond to one or more channels of the measurement device 200. In addition, the power channel 30 may be individually controlled by the controller 20 so that only some of the power channels 30 may generate output voltages, and may generate different output voltages.

The power consumption measurer 40 is configured as an analog-to-digital converter to measure the output voltage 32 and the current consumption 204. Specifically, the power consumption of the measured device is measured by measuring the current consumption of the measured device 200 corresponding to the voltage supplied from the power channel 30. That is, the power consumption measuring unit 40 provides the voltage generated from the power channel 30 as an output voltage 32 to each channel of the measurement device 200, the output voltage 32 and the The power consumption for each channel of the measured device 200 is measured by measuring the current 204 consumed in each channel of the measured device 200 in correspondence with the output voltage. The power consumption measurement unit 40 samples the data with high time resolution and transmits the measured power consumption value to the control unit 20 in real time, and the control unit 20 stores the data in the storage device 50 or the transmission unit ( 60).

The storage device 50 stores power consumption data for each channel received from the control unit 20. For example, the storage device 50 may be a DRAM or an SRAM.

When an external request is made, the transmitter 60 receives power consumption data values of respective channels of the measured device 200 from the controller 20 and provides them to an external PC. The data drawn to the outside may be used for comparison and analysis of power consumption data for each channel, and may also be used as basic data necessary for the development and design of a mobile platform.

The measured power consumption data value 48 is transmitted to the control unit 20, and is transmitted to the storage device 50 or the transmission unit 60.

2 is a flowchart illustrating a flow of a power consumption measuring method according to an embodiment of the present invention.

Referring to FIG. 2, the measurement apparatus receives an operation mode signal from a device under measurement of different power consumption according to an operation mode (S100). The operation mode signal has information on a voltage value required for each channel of the measured device, and thus information on a prediction range of the amount of current consumed by the measured device. At least one power voltage is controlled in real time in response to the operation mode signal (S200). The at least one power voltage is an output voltage that provides a voltage required for at least one channel of the measured device based on an operation mode signal. The measured data value is generated by measuring the controlled power voltage and current consumption in real time (S300). In response to the measured data value, the power consumption of the device under measurement is processed in real time (S400).

As such, by receiving a signal from the instrument and actively measuring the output voltage and measuring the current consumption, the power consumption of each part can be measured in real time, and the data can be stored and used as a basis for developing a mobile processor and an application system.

By using the measurement device having this basic structure, it is possible to accumulate basic data necessary for mobile platform development and application circuit development, which can be helpful for analyzing and designing the cause of power consumption.

As described above, according to the present invention, the power consumption measuring device receives a signal from a measuring device in real time, provides an output voltage used in the measuring device, and measures current for measuring current consumed by the measuring device. By automatically adjusting the range, the power consumption can be actively measured according to the outgoing signal of the measured device. In addition, the power consumption varies depending on the application used mainly, so that the voltage and current can be recorded in real time and used as an analysis data on the change in power consumption by application.

Although described above with reference to the embodiments, those skilled in the art can be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. I can understand.

1 is a block diagram showing the structure of a measuring device according to an embodiment of the present invention.

Figure 2 is a flow chart illustrating the flow of power consumption measurement method according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: measuring device 200: measuring device

10: receiver 20: controller

30: power channel 40: power consumption measuring unit

50: storage device 60: transmitter

Claims (10)

An input unit configured to receive an operation mode signal from a device under measurement which varies power consumption according to an operation mode; One or more power voltage supplies for supplying a variable power voltage in real time in response to a control signal; A power consumption measurement unit measuring voltage and power consumption supplied from each of the one or more power voltage supply units to generate measured data values; And a control unit for generating the control signal for changing the output voltage of the at least one power voltage supply unit in real time in response to the input operation mode signal, and for processing the measured data value. Power measurement device. The consumption mode signal of claim 1, wherein the operation mode signal has information on a voltage value required for each channel of the device under measurement and corresponding information on a prediction range of the current magnitude consumed by the device under measurement. Power measurement device. The apparatus of claim 2, wherein the controller is further configured to supply the output voltage used in each channel of the apparatus under measurement to correspond to information about a voltage value required for each channel of the apparatus under measurement. Power consumption measuring device, characterized in that to provide a control signal. The power consumption measuring apparatus of claim 2, wherein the power consumption measuring instrument automatically adjusts a current measuring range of the measuring instrument in response to information about a prediction range of the current magnitude consumed by the measuring apparatus. The power consumption measuring apparatus of claim 1, wherein the at least one power voltage supply unit is provided corresponding to at least one channel of the apparatus under measurement. The power consumption measurement of claim 1, wherein the controller is configured to individually control each of the one or more power voltage supplies to control on-off and power supply to each channel of the apparatus under measurement. Device. The power consumption measuring apparatus of claim 1, wherein the power consumption measuring apparatus further comprises a storage unit for storing measured data values processed by the controller. The power consumption measuring apparatus of claim 7, wherein the power consumption measuring apparatus further comprises a data communication port for performing data communication with the measurement data values of the control unit and the storage unit. The power consumption measuring apparatus of claim 1, wherein the apparatus to be measured is a mobile processor chip. Receiving an operation mode signal from a device under measurement of different power consumption according to an operation mode; Controlling at least one power voltage in real time in response to the operation mode signal; Generating measured data values by measuring the controlled power voltage and current consumption in real time; And And real-time processing of power consumption consumed by the apparatus under measurement in response to the measured data value.