KR100476982B1 - System for fault diagnosing of transformer and method thereof - Google Patents

Abstract

The present invention relates to a system and method for diagnosing a failure of a transformer, and in particular, to detect various information of a transformer in operation and to detect an abnormal state of a transformer based on the detected information, thereby preventing an accident. And to a method. The present invention provides a fault diagnosis system for a transformer; a thermocouple temperature sensor measuring a temperature inside an insulating oil in a transformer and outputting a signal corresponding to the measured temperature data; A capacitor sensor measuring a voltage and a current to measure a change in insulation resistance of the insulation oil, and outputting a signal corresponding to the measured change in insulation resistance; An amplifier circuit unit for receiving a signal corresponding to the voltage and current data measured from the capacitor sensor and amplifying the signal to a size suitable for A / D conversion to measure the dielectric loss tangent of the transformer; An A / D converter configured to A / D convert signals corresponding to voltages, currents, and temperatures measured from the sensor unit; A communication interface providing a wired / wireless communication port for performing wired / wireless data communication with an external terminal and / or a remote control central server; The A / D conversion unit analyzes the measured data converted into digital data to determine the deterioration state of the transformer, and transmits it to the central control server of the remote place through the communication interface, and detects when the external terminal is connected and connected When the external terminal is authenticated and the external terminal is a certified circuit diagnostic PC, the transformer diagnostic related information is transmitted to the circuit diagnostic PC, and the diagnostic result corresponding to the transformer diagnostic information is transmitted through the communication interface. A controller for transmitting a text to a terminal; And receiving transformer diagnosis-related information transmitted from the control unit via a wired / wireless communication network, performing database analysis to perform deterioration trend analysis using past data and current data, and troubleshooting for the transformer diagnosis-related information. It provides a fault diagnosis system of a transformer comprising a; central control server for transmitting the diagnosis result to a portable terminal of the jurisdiction fault treatment unit to perform.

Description

Fault diagnosis system and method of transformer {SYSTEM FOR FAULT DIAGNOSING OF TRANSFORMER AND METHOD THEREOF}

The present invention relates to a system and method for diagnosing a fault of a transformer, and in particular, by detecting various types of information of a transformer in operation, and early detecting an abnormal state of the transformer based on the detected information, thereby detecting a fault of the transformer. System and method.

Electricity usage has increased along with the industrial development in Korea, and since the late 1960s, large electric facilities such as power transformers and circuit breakers have been continuously expanded in the industry. Since these existing power facilities have been used for a long time, the aging is now noticeable.

In particular, since stable power supply is an important requirement due to the recent automation and advancement of industrial facilities, management of old power equipment is very important in terms of preventing economic losses and industrial safety accidents that may occur when power supply is interrupted. .

Power facilities are generally expensive and large in size, so the replacement cost is very high and requires a long time and a lot of manpower. In addition, most facilities must be individually designed and manufactured for each application, so if many years of intentional progress are not made, losses due to production disruptions can occur. Up to a threatening level.

Recently, the consumption of electricity is increasing rapidly due to the increase of cooling loads and electric information processing facilities and convenience facilities such as computers, and this phenomenon is indicated by the expansion of the overload area and the increased load bias area.

As a result, the load of the column and ground transformers located at the end of the system increases irregularly, and frequent breakdowns occur due to deterioration due to overload and external environment in the transformer.

Transformers play an important role in the stable supply of power, requiring higher reliability than any other power installation. Therefore, in order to prevent such a transformer accident in advance, it is urgently required to develop a new concept of an abnormal diagnosis method for detecting and resolving a transformer abnormality.

In particular, when an accident occurs in a column transformer installed on the ground near a residential area, when a transformer explodes, damage to human and physical property is accompanied, and long-term power failure is accompanied.

The main cause of the explosion of columnar transformer is due to deterioration due to frequent intrusion, absorption and overheating. However, in the prior art, no preventive checks have been made on accidents of transformers that cause such human and material damages and social disasters.

Currently, only the follow-up measures are carried out by simple repairs (every 8 years) and heavy repairs (13 years) which are carried out at regular intervals, but in order to ensure the reliability of the column transformers, The deterioration value and maximum load current of insulating oil should be periodically measured on site.

However, the actual way of measuring the site requires a lot of manpower and budget, which is impossible in reality.

In addition, the conventional columnar transformer management method is to remove the transformer from the pole to perform the diagnostic management for diagnosing the state of the transformer, not only bring the power outage for a certain period of time, but also increase the management cost by unnecessary removal and installation There is a problem.

Recently, 154kv and 345kv class substation transformers have been actively researched on the preventive diagnosis by PD measurement method, gas analysis method, vibration measurement method, etc. It is difficult and practical to apply the existing diagnostic method applied to large-capacity transformers to 10,000 units.

In other words, it is unrealistic to install a million or more columnar and ground transformers in the field, which requires a lot of manpower and budget.

Therefore, it is possible to prevent burnout of columnar transformers and ground transformers due to overload, improve the reliability of power supply, and reduce the cost of repairs. You need a predictable approach. To this end, first of all, since the number of installation of the column transformer and the ground transformer is large, the measurement is difficult and expensive, and the ease of measurement is urgently required.

In addition, since the reliable power supply is not possible with the current time-based method (TBM), which is a management method of the columnar transformer, a diagnostic management method using a condition-based method (CBM) is desired.

For maintenance by the state standard method, it is necessary to be able to easily measure the insulation state of the transformer in the field while it is active for the column transformer. However, it is difficult to store the measured data such as the deterioration state of the transformer and the maximum load current, and the ambient conditions of the transformer. Therefore, a simple and cheap diagnosis method is required than the conventional transformer diagnosis method.

Accordingly, an object of the present invention for solving the above problems is by using electronic sensing technology, detection signal processing technology, information collection and processing technology, the preventive diagnosis that can detect the abnormal state based on the information of the transformer in operation early To build an expert system.

Another object of the present invention is a detection signal to be used for diagnosis, as well as a conventional insulation resistance, dielectric power factor and withstand voltage test method, as well as the recent flammable gas measurement analysis of insulating oil, electrical failure of the partial discharge and the ultrasonic signal of the transformer fault diagnosis system And providing a method.

It is still another object of the present invention to provide a signal separation processing technique of a partial discharge signal for external noise and signal separation, and a system and method for diagnosing faults in digital and analogized transformers using digital signal processing and digital signal characterization techniques. To provide.

In addition, the object of the present invention is the signal of the measuring equipment attached to measure the hysteresis and oil temperature, oil pressure, over current, leakage current of the fault current of the transformer, vibration, ultrasonic parameters, transformer oil deterioration, discharge state according to the transformer mounting test The present invention provides a system and method for diagnosing a failure of a transformer by extracting a lamp and determining whether a transformer is abnormal.

It is also an object of the present invention to provide a system and method for diagnosing a fault in a transformer capable of detecting a transient state before an accident occurs by establishing a modeling technique for a transient state such as temperature, current, voltage, etc. in the transformer.

In order to achieve the above object, the present invention provides a fault diagnosis system of a transformer,

A thermocouple temperature sensor measuring a temperature inside the insulating oil in the transformer and outputting a signal corresponding to the measured temperature data;

A capacitor sensor measuring a voltage and a current to measure a change in insulation resistance of the insulation oil, and outputting a signal corresponding to the measured change in insulation resistance;

An amplifier circuit unit for receiving a signal corresponding to the voltage and current data measured from the capacitor sensor and amplifying the signal to a size suitable for A / D conversion to measure the dielectric loss tangent of the transformer;

An A / D converter configured to A / D convert signals corresponding to voltages, currents, and temperatures measured from the sensor unit;

A communication interface providing a wired / wireless communication port for performing wired / wireless data communication with an external terminal and / or a remote control central server;

The A / D conversion unit analyzes the measured data converted into digital data to determine the deterioration state of the transformer, and transmits it to the central control server of the remote place through the communication interface, and detects when the external terminal is connected and connected When the external terminal is authenticated and the external terminal is a certified circuit diagnostic PC, the transformer diagnostic related information is transmitted to the circuit diagnostic PC, and the diagnostic result corresponding to the transformer diagnostic information is transmitted through the communication interface. A controller for transmitting a text to a terminal; And

Receive transformer diagnosis related information transmitted from the control unit via a wired / wireless communication network, perform database analysis to perform degradation trend analysis using past data and current data, and perform fault processing corresponding to the transformer diagnosis related information. It provides a fault diagnosis system of a transformer comprising a; central control server for transmitting the diagnosis results to a portable terminal of the jurisdiction fault handling unit to perform.

In addition, the present invention is provided with a sensor unit inside the transformer detects the change in the insulating oil temperature and insulation resistance of the transformer, and converts it into a digital signal to determine the abnormal state of the transformer, through the communication interface to the external terminal and / or remote In the fault diagnosis method of a transformer using a fault diagnosis system of a transformer provided to a central control server of

Receiving various measurement data such as voltage, current, and temperature measured from a sensor unit provided in a transformer at predetermined cycles;

Controlling an A / D conversion unit to A / D conversion of the received measurement data;

Calculating a dielectric loss tangent by receiving the digitally converted voltage waveform, current waveform, and temperature data through the A / D converter;

Storing the calculated dielectric loss tangent and measurement data in a memory unit;

Determining a deterioration state of a transformer using the dielectric loss tangent;

If it is determined that the abnormal state is determined, receiving the magnetic information of the transformer from the magnetic information module, and transmits the transformer diagnostic data to the preset portable terminal carried by the central control server and / or service personnel through the communication interface ;

Resetting a data measurement period of the sensor unit after transmitting transformer diagnosis-related data according to a determination result of the deterioration state of the transformer;

Receiving the measurement data by the reset period from the sensor unit; provides a method for diagnosing the failure of the transformer, characterized in that it comprises a.

In addition, the present invention, in the method for diagnosing a transformer, when an external terminal is connected through the communication interface, detecting the authentication and performing authentication of the connected external terminal, and determining whether the external terminal is an authorized circuit diagnostic PC. step;

Outputting an alarm if the connected external terminal is not an authorized terminal, and receiving magnetic information of a transformer from the magnetic information module if the connected external terminal is an authenticated terminal;

And transmitting transformer diagnosis related information such as control number of the transformer, dielectric loss tangent, and insulating oil temperature to the circuit diagnostic PC through the communication interface.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same components have the same reference numerals as much as possible even if they are displayed on different drawings. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention will be omitted.

Hereinafter, the configuration of a fault diagnosis system of a transformer according to the present invention will be described in detail with reference to FIG. 1. 1 is a block diagram of a system for diagnosing a failure of a transformer according to an exemplary embodiment of the present invention.

As shown, looking at the hardware configuration of the failure diagnosis system, the capacitor sensor 14 and the temperature sensor 12 that can measure the temperature in the oil in the columnar transformer 100 insulating oil is installed. The voltage applied to the capacitor sensor 14 uses the secondary side voltage of the columnar transformer. The voltage applied to the capacitor sensor 14 for precise diagnosis is adjusted to ± 5v range through PT, the current is measured using precision resistance, and the thermocouple temperature sensor 12 is used for temperature measurement.

First, the sensor unit 10 measures the voltage and current flowing through the capacitor sensor 14 to calculate the magnitude of the insulation resistance, thereby detecting the degradation of the insulation oil from the change of the insulation resistance. The capacitor sensor 14 and the thermocouple temperature sensor 12 measure a change in the insulation resistance due to the insulation state and the temperature change so that a signal is generated by the relay when an abnormality occurs.

The signal is obtained by measuring the unique number of the columnar transformer 100 stored in the magnetic information module 70 through the communication interface 40 under the control of the control unit 50 in which the communication program is mounted in the memory unit 60. Transfer to the outside together with temperature and insulation oil deterioration state. The controller 50 may be implemented as a one-chip microprocessor.

The communication interface 40 performs data communication with the circuit diagnostic PC 120 connected through a serial interface such as a USB port or RS-232C. In addition, when an error occurs, the data is transmitted to the central control server 130 and the portable terminal 140 at a remote location by connecting to the wired / wireless communication network 110 through a wireless communication interface.

The circuit diagnostic PC 120 is connected to the communication interface 40 provided in the transformer failure diagnosis system, and easily manages the management number, dielectric loss tangent, and temperature of the insulating oil inputted from the transformer 100 to be diagnosed directly in the field. It receives the data and makes a database of it and outputs the diagnosis result to the monitor.

In addition, in order to measure the dielectric tangent of the transformer 100, the amplifying circuit unit 20 reduces the magnitude of the voltage signal having a large input signal and amplifies the magnitude of the current signal appearing relatively small. To this end, the amplifier circuit 20 is configured using the OP-Amp, and amplifies the signal corresponding to the voltage, current and temperature measured from the sensor unit 10 to a size suitable for A / D conversion.

2 is a block diagram illustrating in detail a configuration of a sensor unit of a transformer failure diagnosis system according to an exemplary embodiment of the present invention, and the configuration of the sensor unit 10 will be described in more detail with reference to this.

As shown, the sensor unit 10 includes a capacitor sensor 14, a voltage measuring unit 14a and a current measuring unit 14b for measuring the voltage and current flowing through the capacitor sensor 14, and a temperature sensor. The temperature measuring part 12a which measures the temperature of (12) is provided.

In addition, in order to measure the dielectric loss tangent of the transformer, a voltage signal having a large input signal reduces its magnitude, and a current signal that appears relatively small needs an amplification circuit to amplify its magnitude. To this end, the amplifying circuit unit 20 is configured using the OP-Amp, and amplifies the signal corresponding to the voltage, current and temperature measured from the sensor unit to a size suitable for A / D conversion.

On the other hand, a limiter 22 is provided at the rear end of the amplifying circuit unit 20 to protect the rear circuit unit from each input signal.

3A and 3B are control flow diagrams illustrating a method for diagnosing a transformer using a transformer diagnosing system according to a preferred embodiment of the present invention, and the method for diagnosing a diagnosing transformer according to the present invention will be described in detail with reference to this.

The controller 50 of FIG. 1 receives various measurement data such as voltage, current, and temperature measured from the sensor unit 10 of FIG. 1 at a predetermined period in step 301 of FIG. 3A according to the mounted measurement program.

In operation 303, the controller 50 controls the A / D conversion unit 30 to perform A / D conversion of the measurement data. After receiving the voltage waveform, the current waveform, and the temperature data measured by each sensor through the A / D converter 30, the controller 50 uses the FFT (Fast Fourier Transform) technique in step 305. Calculate The controller 50 stores the dielectric loss tangent and measurement data in the memory unit 60.

Subsequently, the controller 50 determines the deterioration state of the transformer using the dielectric loss tangent in step 309, and if it is determined to be normal or bad, performs step 311.

The controller 50 receives the magnetic information of the transformer from the magnetic information module 70 of FIG. 1 in step 311, and transmits the diagnostic information related to transformers through the communication interface 40 in step 313 to the central control server of FIG. 1. 130 and / or to the portable terminal 140 of FIG.

The portable terminal 140 allows the service personnel to repair the failure of the transformer 100 to be carried, so that the deterioration state of the transformer can be immediately reported. In this case, when the deterioration state of the transformer in the judgment of step 309 is "caution", it may be transmitted to the central control server 130, and if it is "bad", it may be immediately transmitted to the portable terminal 140 by emergency. You can also do that.

In step 315, the control unit 50 resets the data measurement period of the sensor unit 10, and receives the measurement data by the reset period from the sensor unit 10 in step 317.

On the other hand, when the external terminal is connected through the communication interface 40, the control unit 50 detects this in step 401 and performs authentication of the connected external terminal in step 403, the external terminal is authenticated in step 405 It is determined whether the patrol diagnostic PC (120).

If the connected external terminal is not an authenticated terminal, an alarm is output in step 407, and if it is an authenticated terminal, the controller proceeds to step 409 to receive magnetic information of a transformer.

Then, the transformer diagnostic related information such as the management number of the transformer 100, the dielectric loss tangent, and the insulating oil temperature are transmitted to the circuit diagnosis PC 120 through the serial communication port.

The circuit diagnostic PC 120 having received the transformer diagnosis related information displays the transformer diagnosis related information on a screen, and displays the current transformer deterioration state according to the dielectric loss tangent criterion according to the water temperature. To be displayed. In addition, the transformer diagnostic information transmitted is made into a database so that it can be used for degradation trend analysis using past data and current data.

4 is a voltage and current vector diagram of a transformer for measuring dielectric loss tangent of a transformer according to an exemplary embodiment of the present invention.

In general, when an AC voltage is applied to a capacitor, when there is no loss, a current that is 90 degrees ahead of the phase must flow through the applied voltage, but there is a current that does not have a phase difference of 90 ° because there is a loss.

Tandelta is a loss that occurs when voltage is applied to the insulator, which is the magnitude of the loss, and even a small loss has a significant effect on the insulation.

Among these loss factors, it is classified into discharge loss, conductive loss, dipole loss, and covalent loss.

As shown in FIG. 4, it can be seen that the phase difference between the two waveforms is not 90 degrees due to the loss, where Tan δ is called dielectric loss tangent.

In order to measure the dielectric loss tangent, the applied voltage and the current flowing across the phase difference measuring capacitor sensor 14 may be measured to determine the phase difference θ of two waveforms, and then the loss angle δ may be obtained as 90 −θ.

Accordingly, the sensor unit 10 including the diagnostic capacitor sensor 14 is implemented to measure the dielectric loss tangent of the insulating oil.

FIG. 5 is a diagram illustrating a temperature deterioration curve used as a criterion for determining abnormal deterioration of a transformer according to an exemplary embodiment of the present invention. The compulsory deterioration of the transformer is constructed according to the temperature deterioration curve with a deterioration step.

In the transformer failure diagnosis method according to the present invention, a transformer forced deterioration facility is constructed in accordance with the above-described temperature deterioration curve, and the data of the partial discharge, dielectric loss tangent, etc., which appear during the deterioration process while reducing the transformer life gradually, and The comprehensive criterion is established by integrating the diagnostic method in the uninterrupted state, which sets the phenomena occurring before the breakdown of the mold transformer as an abnormality and deterioration standard, the various problems in the field measurement and the noise removal around the transformer room.

Next, the time course of the thermal curing process of the transformer oil according to the temperature deterioration curve of FIG. 5 is measured in accordance with the dielectric loss tangent amount and the partial discharge amount is shown in Figure 6a, 6b.

6A and 6B are diagrams of a time-dependent deterioration state of the transformer oil according to the temperature deterioration curve of FIG. 5 according to the dielectric loss tangent amount and the partial discharge amount. Thus, in the fault diagnosis method of the transformer according to the present invention, Based on the transformer abnormal deterioration judgment reference value and this value, the diagnostic method to analyze the cause of deterioration is established. The diagnostic technique compares, analyzes and synthesizes the ambient frequency band distribution in the substation, the circulating current flowing through the ground line in the multi-ground system, the endnote current, and the high frequency current.

As described above, the degradation state can be determined by measuring the temperature and the dielectric loss tangent of the column transformer, and the fault diagnosis system and method of the transformer according to the present invention can be easily examined to examine the diagnosis result.

The fault diagnosis system of the transformer according to the present invention is installed in a live columnar transformer, and the deterioration tendency is measured and databased at regular intervals. Based on this data, trend analysis of the deterioration state of the columnar transformer is possible. Maintenance can minimize the human and physical damages caused by the column transformer accident.

In addition, the fault diagnosis system of a transformer according to the present invention includes a wired / wireless communication module to transmit the data to a central control server that is implemented through a wired / wireless communication network.

On the other hand, in the detailed description of the present invention has been described with reference to specific embodiments, of course, various modifications are possible without departing from the scope of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention can determine the deterioration state by measuring the temperature and dielectric loss tangent of the columnar transformer, and there is an advantage of easily examining the diagnosis result.

In addition, the present invention is installed in the columnar transformer in operation, the failure diagnosis device to measure the deterioration tendency at regular intervals and make a database, and based on this data, the trend of the deterioration state of the columnar transformer and maintenance by the state standard method Human and material damages caused by column transformer accident can be minimized.

In addition, the transformer fault diagnosis apparatus according to the present invention is provided with a wired / wireless communication module to transmit the data via a wired / wireless communication network, thereby minimizing manpower and time input for measuring the data.

1 is a block diagram of a system for diagnosing a failure of a transformer according to an embodiment of the present invention;

2 is a block diagram showing in detail the configuration of the sensor unit of the transformer fault diagnosis system according to an embodiment of the present invention,

3a, 3b is a control flow diagram showing a method for diagnosing a transformer using a transformer troubleshooting system according to a preferred embodiment of the present invention,

4 is a voltage and current vector diagram of a transformer for measuring dielectric loss tangent of a transformer according to an embodiment of the present invention;

5 is a temperature deterioration curve used as an abnormal deterioration determination reference value of a transformer according to a preferred embodiment of the present invention,

6A and 6B are diagrams of a time-dependent deterioration state of the transformer oil according to the temperature deterioration curve of FIG. 5 according to the dielectric loss tangent and the partial discharge amount.

Explanation of symbols on the main parts of the drawings

10: sensor unit 12: temperature sensor

12a: temperature measuring unit 14: capacitor sensor

14a: voltage measuring unit 14b: current measuring unit

20: amplifier circuit part 22: limiter

30: A / D converter 40: communication interface

50: control unit 60: memory unit

70: magnetic information module 100: transformer

110: wired and wireless communication network 120: circuit diagnostic PC

130: central control server 140: portable terminal

Claims (3)

In the fault diagnosis system of a transformer, A thermocouple temperature sensor measuring a temperature inside the insulating oil in the transformer and outputting a signal corresponding to the measured temperature data; A capacitor sensor measuring a voltage and a current to measure a change in insulation resistance of the insulation oil, and outputting a signal corresponding to the measured change in insulation resistance; An amplifier circuit unit for receiving a signal corresponding to the voltage and current data measured from the capacitor sensor and amplifying the signal to a size suitable for A / D conversion to measure the dielectric loss tangent of the transformer; An A / D converter configured to A / D convert signals corresponding to voltages, currents, and temperatures measured from the sensor unit; A communication interface providing a wired / wireless communication port for performing wired / wireless data communication with an external terminal and / or a remote control central server; The A / D conversion unit analyzes the measured data converted into digital data to determine the deterioration state of the transformer, and transmits it to the central control server of the remote place through the communication interface, and detects when the external terminal is connected and connected When the external terminal is authenticated and the external terminal is a certified circuit diagnostic PC, the transformer diagnostic related information is transmitted to the circuit diagnostic PC, and the diagnostic result corresponding to the transformer diagnostic information is transmitted through the communication interface. A controller for transmitting a text to a terminal; And Receive transformer diagnosis related information transmitted from the control unit via a wired / wireless communication network, perform database analysis to perform degradation trend analysis using past data and current data, and perform fault processing corresponding to the transformer diagnosis related information. And a central control server for transmitting a corresponding diagnosis result to a portable terminal of a jurisdiction troubleshooter so as to perform the fault diagnosis system of the transformer. A sensor unit is provided inside the transformer to detect changes in the insulating oil temperature and insulation resistance of the transformer, and converts it into a digital signal to determine an abnormal state of the transformer. In the fault diagnosis method of a transformer using a fault diagnosis system of a transformer to provide, Receiving various measurement data such as voltage, current, and temperature measured from a sensor unit provided in a transformer at predetermined cycles; Controlling an A / D conversion unit to A / D conversion of the received measurement data; Calculating a dielectric loss tangent by receiving the digitally converted voltage waveform, current waveform, and temperature data through the A / D converter; Storing the calculated dielectric loss tangent and measurement data in a memory unit; Determining a deterioration state of a transformer using the dielectric loss tangent; If it is determined that the abnormal state is determined, receiving the magnetic information of the transformer from the magnetic information module, and transmits the transformer diagnostic data to the preset portable terminal carried by the central control server and / or service personnel through the communication interface ; Resetting a data measurement period of the sensor unit after transmitting transformer diagnosis-related data according to a determination result of the deterioration state of the transformer; Receiving the measurement data by the reset period from the sensor unit; fault diagnosis method comprising a. The method of claim 2, Detecting when the external terminal is connected through the communication interface and performing authentication of the connected external terminal to determine whether the external terminal is an authenticated circuit for diagnosis; Outputting an alarm if the connected external terminal is not an authorized terminal, and receiving magnetic information of a transformer from the magnetic information module if the connected external terminal is an authenticated terminal; And transmitting transformer diagnosis related information such as a management number of the transformer, dielectric loss tangent, and insulating oil temperature to the circuit diagnosis PC through the communication interface.