JPH06348245A - Display device and its luminance control method - Google Patents

Abstract

PURPOSE:To provide the display device and its luminance control method which enables a user to optionally and easily set and vary luminance output characteristics to light intensity and can adjust the luminance to a luminance value matching use environment in detail. CONSTITUTION:On a control SW panel 11, a luminance value corresponding to a light intensity value is set and the quantity of light detected by an optical sensor 6 is converted by an optical sensor interface circuit 5 into a light intensity value Ij, and a CPU controller 10 reads luminance values Rp1 and Rp2 corresponding to two light intensity value Ip1 and Ip2 which are close to and before and behind the light intensity value Ij out of a light intensity to luminance value table 7a in a memory 7 for presetting to find a linear equation, and the luminance value Rj corresponding to the light intensity value Ij is outputted to a luminance adjusting circuit 3 to adjust the luminance of a display 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device capable of adjusting brightness, and more particularly, to a display device which automatically adjusts brightness based on data in which an output value of brightness with respect to luminous intensity is preset programmable. The present invention relates to a brightness control method.

[0002]

2. Description of the Related Art A conventional display device will be described with reference to FIGS. FIG. 3 is a configuration block diagram of a conventional display device having a simple brightness adjustment circuit, and FIG. 4 is a configuration block diagram of a conventional display device that detects the state of light in the external world and adjusts the brightness. As shown in FIG. 3, a conventional display device includes a display 4 for displaying characters and images, a brightness adjusting circuit 3 for adjusting brightness in the display 4,
It is composed of a brightness adjusting volume SW2 which is a switch for manually adjusting the brightness, and a CPU controller 1 which receives an instruction signal from the brightness adjusting volume SW2 and outputs a brightness value corresponding to the instruction signal to the brightness adjusting circuit 3. .

In the brightness adjusting method in the conventional display device shown in FIG. 3, a person (adjuster) who adjusts the brightness is watching the display 4 while viewing the display 4 in relation to the outside world.
The brightness adjustment volume SW2 is adjusted according to the bright / dark state.
Then, the instruction signal is given to the CPU controller 1, and C
The PU controller 1 calculates a brightness value corresponding to the instruction signal and outputs the brightness value to the brightness adjusting circuit 3, and the brightness adjusting circuit 3 operates according to the brightness value to change the brightness on the display 4.

Another conventional display device is, as shown in FIG. 4, a display 4, a brightness adjusting circuit 3, and a CPU.
A configuration including a controller 1, an optical sensor 6 provided on the display 4 for detecting light, and an optical sensor interface circuit 5 for outputting the light detected by the optical sensor 6 to the CPU controller 1 as a luminous intensity value. There is one.

Next, the brightness control method in the conventional display device of FIG. 4 will be described. The light is detected by the optical sensor 6, and the detected light is output to the CPU controller 1 as a luminous intensity value by the optical sensor interface circuit 5. . The CPU controller 1 utilizes the fact that the luminous intensity value and the luminance value are in a constant proportional relationship, calculates the luminance value for the given luminous intensity value by arithmetic processing, and outputs the luminance value to the luminance adjusting circuit 3. . Then, the brightness adjusting circuit 3 performs an adjusting operation with the given brightness value to change the brightness on the display 4.

[0006]

However, in the conventional display device and the brightness control method thereof shown in FIG. 3, the adjuster operates the brightness adjustment volume SW2 to adjust the brightness on the display 4 in accordance with the external light condition. Therefore, the brightness adjustment volume SW is sequentially adjusted for changes in the external environment.
2 has to be operated to adjust the brightness, and there is a problem that the operation of the brightness adjustment volume SW2 is complicated.

Further, in the conventional display device and the brightness control method thereof shown in FIG. 4, the optical sensor 6 detects the external light, and the optical sensor interface circuit 5 detects the amount of the detected light.
In order to obtain the luminous intensity value, calculate the luminance value from the linear proportional relationship between the luminous intensity and the luminance by the CPU controller 1 and automatically control the luminance adjusting circuit 3 to automatically perform the luminance adjustment. Although the brightness adjustment operation is not complicated, it is common that the relationship between light intensity and brightness is a linear proportional relationship.
There is a problem in that the user cannot freely and easily set and change the luminance output characteristic with respect to the luminous intensity, and it is not possible to flexibly respond to the external light condition.

The present invention has been made in view of the above circumstances, and a user can easily and arbitrarily set and change the luminance output characteristic with respect to the luminous intensity, and the luminance can be adjusted with a luminance value finely adapted to the use environment. An object of the present invention is to provide a display device and a brightness control method thereof.

[0009]

According to a first aspect of the present invention for solving the above-mentioned problems of the prior art, in a display device, a display section for displaying and a peripheral portion of the display section are provided. An optical sensor unit that detects the amount of light near the display unit, an interface unit that converts the output from the optical sensor unit into a luminous intensity value, a plurality of luminous intensity values and a plurality of luminance values corresponding to the luminous intensity values in a table format. A memory for storing, an operation unit for setting / changing a numerical value in the memory, two light intensity values before and after approximating the light intensity value output from the interface unit, and two brightness values corresponding to the two light intensity values. Is read from the memory, a linear equation is obtained from the two luminous intensity values and the two luminous intensity values, and a brightness value corresponding to the luminous intensity value output from the interface unit is calculated. When is characterized by having a brightness adjusting portion that adjusts the brightness at the display portion in accordance with the luminance value calculated by the control unit.

According to a second aspect of the invention for solving the problems of the conventional example, in the brightness control method for a display device according to the first aspect, the amount of light detected by the optical sensor unit is converted into a luminous intensity value by the interface unit. Then, the brightness value is set on the operation unit with respect to the brightness value, and a plurality of brightness values and a plurality of brightness values corresponding to the brightness value are stored in a memory in a table format.
When the light sensor unit detects the light intensity, the interface unit converts the light intensity value and outputs the light intensity value to the control unit, and the control unit outputs the light intensity value from the interface unit based on the light intensity value and the brightness value preset in the memory. The two brightness values before and after approximating the value and the two brightness values corresponding to the two brightness values are read out, a linear equation is obtained from the two brightness values and the two brightness values, and the equation is calculated from the interface unit. The brightness value is calculated by substituting the output luminous intensity value, and the brightness adjustment unit adjusts the brightness in the display unit according to the calculated brightness value.

The invention according to claim 3 for solving the above-mentioned problems of the prior art is the display device according to claim 1, wherein
The operation unit is provided with a date and time setting means for setting the date and time, the control unit is provided with a calendar clock, and the memory is provided with a plurality of correspondence tables of luminous intensity values and luminance values managed for each specific date and time.

According to a fourth aspect of the present invention for solving the above-mentioned problems of the conventional example, in the brightness control method for a display device according to the third aspect, the control unit reads the date and time from the calendar clock and responds to the date and time. It is characterized in that a correspondence table of the luminous intensity value and the brightness value is searched in the memory, and the brightness is adjusted in the display unit by using the searched correspondence table.

[0013]

According to the first aspect of the present invention, the amount of light detected by the optical sensor unit is converted into a light intensity value by the interface unit, and two brightness values corresponding to the two light intensity values before and after the light intensity value are approximated to the brightness value from the memory. The control unit reads the linear equation, outputs the brightness value corresponding to the luminous intensity value converted by the interface unit to the brightness adjusting unit, and the display unit adjusts the brightness. The output characteristic of the brightness value with respect to the brightness value can be obtained by a continuous straight line having a different slope depending on the brightness value and the brightness value, and the brightness of the display unit can be finely adjusted by obtaining the brightness value finely adapted to the usage environment.

According to the second aspect of the invention, the amount of light detected by the optical sensor unit is converted into a luminous intensity value by the interface unit,
The brightness value is set on the operation unit with respect to this brightness value, the brightness values are obtained for a plurality of brightness values, and the brightness values are stored in a memory in a table format. Since the brightness control method for a display device according to claim 1 is described in which the brightness is adjusted using, the user can easily and finely set and change the output characteristics of the brightness with respect to the light intensity.

According to a third aspect of the present invention, the operation section has a date / time setting means, the control section has a calendar clock, and the memory has a plurality of correspondence tables of luminous intensity values and luminance values managed for each specific date and time. Since the display device according to item 1, the brightness can be adjusted by using the correspondence table according to the date and time of the calendar clock, and the brightness value suitable for the specific date and time of the year is obtained to finely adjust the brightness of the display unit. it can.

According to the fourth aspect of the invention, the control unit reads the date and time from the calendar clock, searches the memory for a corresponding correspondence table of the luminous intensity value and the luminance value, and uses the retrieved correspondence table to display the luminance of the display unit. Since the adjustment is performed by the brightness control method of the display device according to the third aspect, the brightness on the display unit can be finely adjusted in conformity with a specific date and time of the year.

[0017]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a configuration block diagram of a display device according to an embodiment of the present invention. It should be noted that portions having the same configurations as those in FIG. 3 and FIG.

As shown in FIG. 1, the display device of this embodiment has a display 4 for displaying characters, images, etc., an optical sensor 6 provided near the display 4 for detecting external light, and an optical sensor 6. An optical sensor interface circuit 5 for outputting the luminous intensity from the light detected by the sensor 6 to the CPU controller 10,
A brightness adjusting circuit 3 that adjusts the brightness of the display 4 according to the brightness value output from the CPU controller 10, a preset memory 7 that stores the brightness value corresponding to the luminous intensity value in a table format, and serial data to the CPU controller. 10, a serial line 9 for input to the controller 10, a control SW panel 11 for setting / changing the setting values of the luminous intensity value vs. brightness value table 7a in the preset memory 7, and a value set from the control SW panel 11 for presetting A CPU controller 10 that reads the brightness value from the brightness value from the light sensor interface circuit 5 by referring to the brightness value vs. brightness value table 7a and outputs the brightness value to the brightness adjusting circuit 3
It consists of and.

Next, a specific configuration of each part in the display device of this embodiment will be described. The display 4 has the same structure as a conventional display, and displays characters, images, and the like. The optical sensor 6 is provided around the display 4 and detects external light. Specifically, a semiconductor device such as a photodiode or a phototransistor is used. The optical sensor interface circuit 5 converts the detected light into a luminous intensity value, and
The light intensity value is output to the U controller 10. The brightness adjustment circuit 3 adjusts the brightness on the display 4 according to the brightness value given by the CPU controller 10.

The preset memory 7 is a storage unit for storing the light intensity value, the brightness value, the date and time in a table format, and an E ² PROM or a flash memory is used. Specifically, the preset memory 7 is provided with a luminous intensity value-brightness value table 7a, and also has a plurality of luminous intensity value-brightness value tables 7a 'corresponding to a specific date and time.

The luminous intensity value vs. luminance value table 7a stores the luminous intensity value and the luminance value given by the control SW panel 11 or the serial line 9 in a table format. However, the luminous intensity value and the luminance value in the luminous intensity value vs. luminance value table 7a can be rewritten by the control SW panel 11 or the serial line 9.

The luminous intensity value-brightness value table 7a 'corresponding to the specific date and time has the same structure as the luminous intensity value-brightness value table 7a, except that the table 7a' is associated with the specific date and time. It has a characteristic. Therefore, the date and time, the luminous intensity value, and the luminance value are given by the control SW panel 11 or the serial line 9, and rewriting is possible.

The control SW panel 11 has a date / time setting SW 11a, a preset confirmation SW 11b, and a brightness adjustment volume SW 11c.
The panel 11 is connected to the CPU controller 10 by a detachable connector 8.

The date and time setting switch 11a is a switch for setting the date and time. The preset confirmation SW 11b is a switch for setting and confirming the luminous intensity value and the luminance value at the present time in the preset memory 7. Brightness adjustment volume SW1
1c is a switch for manually adjusting the optimum brightness.

The serial line 9 is connected to the CPU controller 10 and is a line through which serial values such as luminous intensity value, luminance value, date and time are transmitted from the outside.

Next, a specific control operation of the CPU controller 10 will be described. The first control operation of the CPU controller 10 reads the luminous intensity value output from the optical sensor interface circuit 5, compares the luminous intensity value in the preset memory 7 with the luminous intensity value in the luminance value table 7a, and reads the luminous intensity value. Is calculated and the brightness value is calculated by the brightness adjustment circuit 3
Is output to. The method of calculating the brightness value will be described later.

The second control operation of the CPU controller 10 is the luminous intensity value read from the optical sensor interface circuit 5,
The brightness values set by using the respective SWs of the control SW panel 11, the date and time, and the like are associated and stored (preset) in the luminous intensity value-brightness value tables 7a and 7a 'in the preset memory 7. The setting value is changed by the same control operation. Also, presetting can be performed by serial data of set values transmitted through the serial line 9.

The third control operation of the CPU controller 10 is C
Using the calendar clock in the PU controller 10, the luminous intensity value vs. luminance value table 7a 'at the corresponding specific date and time is searched from the date and time of the calendar clock, and this luminous intensity value vs. luminance value table 7a' is searched.
Is used to perform the first control operation.

Next, a method of setting the preset memory 7 will be described. There are two kinds of setting methods. One of the setting methods (first method) is to transmit a light intensity value, a brightness value, a date and time value to the CPU controller 10 from the outside through the serial line 9 as serial data. This is a method in which the controller 10 reads the luminous intensity value, the luminance value, and the like, stores them in the preset memory 7, and sets them. In particular, when creating a new luminous intensity value-brightness value table 7a, changing all numerical values of the luminous intensity value-brightness value table 7a, or adding a luminous intensity value-brightness value table 7a 'at a specific date and time, Method 1 is effective.

Another setting method (second method)
Detects the light by the optical sensor 6, converts the detected light into the luminous intensity value by the optical sensor interface circuit 5, and converts the detected light into the CPU.
The brightness value is output to the controller 10, and the optimum brightness at the current light intensity is manually adjusted / selected by the brightness adjustment volume SW11c to output the brightness value to the CPU controller 10, and the preset confirmation SW11b is used to input the preset confirmation. When you do
This is a method in which the luminous intensity value and the luminance value at the present time are determined, and these values are stored in the preset memory 7 and set. In particular, this second method is effective when the partial numerical values in the luminous intensity value vs. luminance value tables 7a and 7b are changed or the numerical values are partially added. The date and time can be associated and stored together with the luminous intensity value and the luminance value. Then, in the second method, the output characteristic of the luminance value with respect to the luminous intensity value is determined by executing the above-mentioned operation a plurality of times.

Next, a relationship diagram between the luminous intensity value and the luminance value will be described with reference to FIG. FIG. 2 is a diagram showing the relationship between the luminous intensity value and the luminance value. In this figure, the luminous intensity value is plotted on the vertical axis and the luminance value is plotted on the horizontal axis. The solid line A shows the relationship between the luminous intensity value and the luminance value of the display device of this embodiment, and the broken line B shows the relationship between the luminous intensity value and the luminance value of the conventional display device. The relationship between the luminous intensity value and the luminance value of the conventional display device is a constant proportional relationship, but the relationship between the luminous intensity value and the luminance value of the display device of the present embodiment is a continuous characteristic such as a proportional straight line at each preset point. It will be. Therefore, in the display device of the present embodiment, the brightness value corresponding to the luminous intensity value as shown by the solid line A is output to the brightness adjusting circuit 3.

Next, a method of calculating the brightness value corresponding to the luminous intensity value will be described. The optical sensor 6 detects the external light, outputs a signal corresponding to the detected light amount to the optical sensor interface circuit 5, the optical sensor interface circuit 5 converts the signal into a luminous intensity value, and outputs it to the CPU controller 10. To be done. Then, this luminous intensity value (actually measured luminous intensity value) is compared with the luminous intensity value (preset luminous intensity value) stored in the luminous intensity value vs. luminance value table 7a in the preset memory 7.

As shown in FIG. 2, this comparison method uses a preset luminous intensity value I which is smaller than the measured luminous intensity value Ij and is closest to the preset luminous intensity value Ij.
A preset light intensity value Ip2 that is larger than p1 and the measured light intensity value Ij and is closest thereto is searched, and the brightness values Rp1 and Rp2 corresponding to the preset light intensity values Ip1 and Ip2 are searched from the light intensity value-brightness value table 7a.
Is read out and a linear equation is calculated from the point (Ip1, Rp1) and the point (Ip2, Rp2), and the actually measured luminous intensity value Ij is substituted into the equation thus obtained to calculate the corresponding luminance value Rj. The straight line equation in this case is shown below. I-Ip1 = {(Ip2-Ip1) / (Rp2-Rp1)}. (RR
p1)

Here, {(Ip2-Ip1) / (Rp2-Rp1)}
Indicates the slope of the straight line equation, and this equation is further organized into the following form. R = {(Rp2-Rp1) / (Ip2-Ip1)}. (I-Ip1) +
Rp1 By substituting the measured light intensity value Ij for I in the above equation, the brightness value Rj corresponding to R can be obtained. The brightness value Rj is output to the brightness adjusting circuit 3, and the brightness of the display 4 is adjusted by the brightness value Rj.

Next, a method of setting data such as numerical values in the luminous intensity value-to-luminance value table 7a 'in the preset memory 7 and a luminance adjusting method using the luminous intensity value-to-luminance value table 7a' will be described. The date and time SW11a provided on the control SW panel 11 sets the date and time. When the brightness at the date and time set by the date and time setting SW 11a is adjusted by the brightness adjustment volume SW 11c and the preset confirmation is input by the preset confirmation SW 11b, the brightness value corresponding to the luminous intensity value at that time is controlled by the CPU controller 10. It is associated and stored in the preset memory 7. By performing this operation a plurality of times for a plurality of luminous intensities, it is possible to set the luminance value output characteristic for the luminous intensity value.

In this way, for example, 1 on September 20
From 3:00 to 15:00, we obtained the brightness value vs. brightness value characteristics, and from September 1st
A luminous intensity value vs. luminance value table 7a 'can be formed as a characteristic from 13:00 to 15:00 on the 30th. Therefore, if the number of days of the year is divided into a plurality of blocks, and the block is divided at every specific time to form a plurality of luminous intensity value-brightness value tables 7a 'corresponding to a specific date and time, unmanned The outdoor display device can be made to automatically perform fine brightness adjustment throughout the year.

A specific brightness adjusting method using the light intensity value vs. brightness value table 7a 'is to read the date and time on a calendar clock provided in the CPU controller 10 and to store in the preset memory 7 corresponding to this date and time. Luminous intensity value vs. luminance value table 7
A'is searched, the brightness value corresponding to the brightness value is obtained using the brightness value-brightness value table 7a ', and the brightness of the display 4 is adjusted according to the brightness value.

According to the display device and the brightness control method thereof of the present embodiment, a plurality of optimum brightness values corresponding to a plurality of brightness values are stored in the preset memory 7 by using the control SW panel 11. The amount of light detected by the optical sensor 6 is stored in the table 7a, converted into a luminous intensity value by the optical interface circuit 5, and the luminance value corresponding to this luminous intensity value is used as a continuous characteristic on a straight line connecting the preset points to the CPU. Since it is possible to output from the control circuit 10 to the brightness adjusting circuit 3, the user can easily set / change the output characteristic of the brightness value with respect to the light intensity value by the control SW panel 11, and also the plurality of preset points. By making detailed settings, it is possible to obtain the output characteristics of the brightness value that suits the usage environment and conditions, so it is possible to perform brightness adjustment that suits the environment, etc. There is an effect that it is possible to prevent the power-consuming of the brightness up and over high brightness.

In addition, a plurality of luminous intensity value-brightness value tables 7a 'at a specific date and time are set in the preset memory 7 and CP is set.
If the brightness adjustment of the present embodiment is performed by using the brightness / brightness value table 7a 'of the corresponding date and time from the calendar clock in the U controller 10, even if the display device is unmanned outdoors, the brightness is adjusted. The effect is that the adjustment can be made fine according to the calendar.

[0040]

According to the first aspect of the present invention, the amount of light detected by the optical sensor unit is converted into a luminous intensity value by the interface unit, and two brightness values corresponding to the preceding and following luminous intensity values which are approximate to the luminous intensity value are stored in the memory. It is set as the display device that reads the equation of the straight line read from inside the control unit, outputs the brightness value corresponding to the luminous intensity value converted by the interface unit to the brightness adjustment unit, and adjusts the brightness on the display unit. It is possible to obtain the output characteristic of the brightness value with respect to the brightness value with a continuous straight line having different inclinations depending on the brightness value and the brightness value, and to finely adjust the brightness of the display unit by obtaining the brightness value that is finely adapted to the usage environment. effective.

According to the second aspect of the present invention, the amount of light detected by the optical sensor unit is converted into a luminous intensity value by the interface unit,
The brightness value is set on the operation unit with respect to this brightness value, the brightness values are obtained for a plurality of brightness values, and the brightness values are stored in a memory in a table format. Since the brightness is controlled by using the brightness control method according to the first aspect of the invention, there is an effect that the user can easily and finely set and change the output characteristics of the brightness with respect to the light intensity.

According to the third aspect of the present invention, the operation section has a date / time setting means, the control section has a calendar clock, and the memory has a plurality of correspondence tables of luminous intensity values and luminance values managed for each specific date and time. Since the display device according to item 1, the brightness can be adjusted by using the correspondence table according to the date and time of the calendar clock, and the brightness value suitable for the specific date and time of the year is obtained to finely adjust the brightness of the display unit. There is an effect that can be done.

According to the fourth aspect of the invention, the control unit reads the date and time from the calendar clock, searches the memory for a corresponding correspondence table of the luminous intensity value and the luminance value, and uses the retrieved correspondence table to display the luminance of the display unit. Since the adjustment is performed by the brightness control method of the display device according to the third aspect, there is an effect that the brightness in the display unit can be finely adjusted in conformity with a specific date and time of the year.

[Brief description of drawings]

FIG. 1 is a configuration block diagram of a display device according to an embodiment of the present invention.

FIG. 2 is a relationship diagram of luminous intensity value vs. luminance value.

FIG. 3 is a configuration block diagram of a conventional display device.

FIG. 4 is a configuration block diagram of another conventional display device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... CPU controller of the conventional display device, 10 ... CPU controller of the display device of this Example, 2 ... Luminance adjustment volume SW, 3 ... Luminance adjustment circuit, 4 ... Display, 5
… Optical sensor interface circuit, 6… Optical sensor, 7
... preset memory, 7a ... luminance value vs. brightness value table, 8 ... remove connector, 9 ... serial line,
11 ... Control SW panel, 11a ... Date and time setting S
W, 11b ... Preset confirmation SW, 11c ... Brightness adjustment volume SW

Claims (4)

[Claims] 1. A display unit for displaying, an optical sensor unit provided around the display unit for detecting the amount of light in the vicinity of the display unit, and an output from the optical sensor unit is converted into a luminous intensity value. An interface section, a memory for storing a plurality of luminous intensity values and a plurality of luminance values corresponding to the luminous intensity values in a table format, and setting of numerical values in the memory.
An operation unit for making a change, two light intensity values before and after approximating the light intensity value output from the interface unit, and two brightness values corresponding to the two light intensity values are read from the memory,
A control unit that obtains a linear equation from the two luminous intensity values and the two luminous intensity values and calculates a luminance value corresponding to the luminous intensity value output from the interface unit; and a brightness value calculated by the control unit according to the brightness value. A display device, comprising: a brightness adjusting unit for adjusting the brightness of the display unit. 2. The light amount detected by the optical sensor unit is converted into a light intensity value by the interface unit, the brightness value is set by the operation unit for the light intensity value, and a plurality of light intensity values and the light intensity value are stored in the memory. Multiple brightness values to be stored in a table format,
When the light sensor unit detects the light intensity, the interface unit converts the light intensity value and outputs the light intensity value to the control unit, and the control unit outputs the light intensity value from the interface unit based on the light intensity value and the brightness value preset in the memory. The two brightness values before and after approximating the value and the two brightness values corresponding to the two brightness values are read out, a linear equation is obtained from the two brightness values and the two brightness values, and the equation is calculated from the interface unit. The brightness control method for a display device according to claim 1, wherein the brightness value is calculated by substituting the output luminous intensity value, and the brightness is adjusted in the display section by the brightness adjusting section according to the calculated brightness value. . 3. The operation unit is provided with date and time setting means for setting the date and time, the control unit is provided with a calendar clock, and the memory has a plurality of correspondence tables of luminous intensity values and luminance values managed for each specific date and time. The display device according to claim 1. 4. The control unit reads the date and time from the calendar clock, searches the memory for a correspondence table of the luminous intensity value and the brightness value corresponding to the date and time, and uses the searched correspondence table to adjust the brightness in the display unit. 4. The brightness control method for a display device according to claim 3, further comprising: