DE60308681T2 - Method and apparatus for providing a screen saver in a portable electronic device - Google Patents

Description

AREA OF INVENTION

The The present invention relates generally to mobile electronic Devices. In particular, the present invention relates to a Method and system for providing a screen saver (screen saver) in a mobile electronic device.

BACKGROUND THE INVENTION

Cathode Ray Tubes (CRT - cathode ray tube) ads suffer from an effect called burn-in ("Burn-in") is called. If the same picture for longer Time left on the CRT, the phosphorus age is aging faster than the unreached phosphorus. The effect of this Burning is noticeable when the CRT is no longer turned on, but still an image is visible. Screen saver or time outs are generally used to prevent burn-in. Newer display technology, such as OLEDs (Organic Light Emitting Diodes), have a similar Problem. In the case of OLED panels or displays takes the luminance of the field over the lifetime of the field, which is significantly shorter than other display technologies. Another problem with OLED fields is that the lifetime every primary color is significantly different. Over time there is compensation for the different rates of aging of the primary colors required. Another one The problem with OLED fields is their high power consumption.

conventional Screensavers address these issues, but weigh on the Processor during execution the software for the screensaver. Another disadvantage of the conventional Software implementation of a screensaver is the longer turn-on time of the processor, which affects the battery life, which powered the mobile electronic device.

US 2002/0044143 discloses a system suitable for providing a screensaver for a display panel in a mobile electronic device. The System has a memory for storing a screensaver image and display control means configured to display the screen saver image retrieve from the memory and the screensaver image to the Display field to send during a screensaver mode. A screensaver with single Color is displayed on a full color display, using the color with the longest Lifespan to reduce the variation of color balance.

SUMMARY THE INVENTION

It One objective of patent discovery is the life of primary colors of a display field in a screen saver mode (balance) and all primary colors to display a screensaver image.

This The object is achieved by the system and the method according to the independent claims 1 and 7th

Other Aspects and features of the present invention will become apparent to those skilled in the art obviously, considering the following description of specific ones embodiments the invention in conjunction with the accompanying drawings.

SHORT DESCRIPTION THE DRAWINGS

embodiments The present invention will now be described by way of example with reference to FIG on the attached Drawings are described, wherein:

1 Figure 4 is a block diagram of an OLED (Organic Light Emitting Diode) driver;

2 Fig. 10 is a block diagram of a screen saver control device; and

3 FIG. 10 is a flow chart of a method of providing a screen saver for a mobile electronic device. FIG.

DETAILED DESCRIPTION

Generally become a method and system for providing a screen saver described in a mobile electronic device. The screensaver will over implements hardware in the mobile electronic device, so that a processor of the device is less loaded and the life of a battery or other limited power supply, as typically used in such devices, can be stretched out. Furthermore, the screensaver sees a Color aging control in front of the colors of the field or display of the mobile electronic device.

With reference to 1 11 is a diagram showing an implementation of a single integrated circuit (IC) of an OLED (Organic Light Emitting Diode) driver. The driver 10 is with a host CPU (central processing unit) 12 via a CPU interface 14 connected. The CPU interface 14 is with a display RAM (random access memory) 16 , a screensaver RAM 18 , a display control before direction 20 , a screen saver control device 22 and a DC-DC converter 24 connected, in turn, with a power source 25 connected, generally in the form of a battery. the interface 14 also includes an oscillator 36 to a timing for the driver 10 provided.

The display RAM 16 , the screensaver RAM 18 and the screen saver control device 22 are with a multiplexer (MUX) 26 connected to the display control device 20 connected is. The display control device 20 is with a common driver 28 , a segment driver 30 and a current reference / digital-to-analog converter (DAC) 32 connected. The combination of the display control device 20 , the common driver 28 and the segment driver may be considered as display control means for controlling the screen saver. The screensaver control device 22 is also with the display control device 20 and the current reference / DAC 32 connected during the current reference / DAC 32 with the segment driver 30 connected is. Both the common driver 28 as well as the segment driver 30 are using an OLED (Organic Light Emitting Diode) field 34 connected.

The CPU interface 14 sees an interface between the driver 10 and the host CPU 12 predicts and defines the timing of generic interface signals such as READ, WRITE, CHIP SELECTION, ADDRESS LINE (N), DATA LINE, and RESET. The display RAM 16 is preferably an SRAM and is used to store an image on the OLED field 34 during an operating mode. In operation, the CPU interface loads 14 the display RAM 16 based on the host CPU 12 received data. The screensaver RAM 18 is functionally similar to the display RAM 16 but has limited memory to a screensaver image from the host CPU 12 save. For example, the screen saver RAM 18 only store data for a range of 20x20 pixels, even though the pixel area of the panel is an area of 220x176 pixels.

The MUX 26 is a switch that selects the source of the image data that is on the OLED field 34 are displayed. Therefore, in the operating mode, the MUX looks 26 a connection between the display RAM 16 and the display control device 20 for image preview, while the MUX 26 in a screen saver mode, a connection between the screen saver RAM 18 and the display control device 20 provides for image retrieval.

The display control device 20 reads the display image data from the display RAM 16 or the screen saver RAM 18 (depending on their connection via the MUX 26 ) for one line and displays the data and provides the timing for the line of image data that is on the OLED field 34 to be displayed. The display control device 20 then retrieves the next line of image data stored in the display RAM 16 or the screen saver RAM 18 are stored, depending on the mode of the OLED field 34 , This process is repeated several times per second until the entire image is in the field 34 is shown. The display control device 20 also defines where the display image data from the display RAM 16 or the screen saver RAM 18 to the OLED field 34 be mapped. For example, the host CPU 12 a command to the display control device 20 transfer only the first fifty lines of image data and the rest of the field 34 empty or black.

The screensaver control device 22 is used to control the screen saver so that the host CPU 12 not so charged. The screensaver control device 22 also controls the MUX 26 as below with reference to the 2 which is a schematic diagram of the screen saver control device 22 is.

The common driver 28 sends pulses to the OLED field 34 to indicate the address to which the segment driver 30 currently sends the image data. Further, the segment driver converts 30 the digital data from the display RAM 16 or the screen saver RAM 18 in a current level, which is required to the OLED field 34 with a defined level (pixel luminosity) to control. The display RAM 16 defined via the display control device 20 the pixel luminance level and transmits this level to the current reference / DAC 32 , The current reference / DAC 32 typically includes a DAC for each red, green, and blue of a color display. The DC-DC converter 24 converts the power supply voltage 25 typically 3V into one of the OLED field 34 required level.

With reference to 2 Fig. 12 is a schematic block diagram of the screen saver control device 22 shown. The screensaver control device 22 has a set of RGB timers 35 on, shown as a RED timer that has a RED preset 36 and a RED down counter 38 has a GREEN timer that has a GREEN preset 40 and a GREEN down counter 42 and a BLUE timer that has a BLUE preset 44 and a BLUE down counter 45 having. The screensaver control device 22 Also includes a screensaver timer, which includes a screensaver down counter 46 and a symbol movement timer, the one symbol move down counter 48 and various AND and OR gates. The symbol movement down counter 48 is also with a command generator 53 connected to the display control device 20 connected is. The symbol movement down counter 48 provides a timer to determine when to change the location or position of the screen saver image.

Entries in the screen saver control device 22 comprise a clock source 50 that from the oscillator 36 in the CPU interface 14 dates, and inputs 70 . 72 and 90 from the CPU interface 14 ,

The command generator 53 generates and transmits two types of commands for the display control device 20 , These two commands are image size and start address (image location). The generated start address of the image display is randomly changed each time the symbol movement down counter 48 Reaches zero, so that the screensaver image remains constant on the OLED field 34 moved to get the primary colors. The image size used by the command generator 53 is generated and transmitted based on the size of the screen saver RAM 18 or may be from the command generator 53 be determined as a smaller size. In a preferred embodiment, the image size for the screen saver is a 20x20 pixel area.

Each of the RGB timers is used to display one of the primary colors of the OLED field 34 to control to compensate for different aging of the colors, and is based on the host CPU 12 received values via the CPU interface 14 loaded. Each of the down counters includes a store input 54 , an activation input 56 , a zero output 58 and a clock input 60 , The clock input 60 every down counter 38 . 42 and 45 receives its input from the clock source 50 ,

The activation input 56a of the RED down counter 38 receives the input 70 from the CPU interface 14 while the zero output 58a of the RED down counter 38 with the activation input 56b and the store entrance 54b of the GREEN down counter 42 connected is. The zero output 58b of the GREEN down counter 42 is with the store entrance 54c and the activation input 56c of the BLUE down counter 45 connected. The store entrance 54a of the RED down counter 38 is loaded with the result of the OR function of the zero output 58c of the BLUE down counter 45 and the zero output 58d the screensaver down counter 46 ,

The result of the AND function from the input 70 from the CPU interface 14 , the zero output 58a of the RED down counter 38 and the zero output 58d the screensaver down counter 46 Controls a "disable RED" DAC signal 62 while the result of the AND function from the input 70 from the CPU interface 14 , the zero output 58b of the GREEN down counter 42 and the zero output 58d a "disable GREEN" DAC signal 64 controls and the result of the AND function from the input 70 from the CPU interface 14 , the zero output 58c of the BLUE down counter 45 and the zero output 58d the screensaver down counter 46 a "disable BLUE" DAC signal 66 controls. As described above, the current reference / DAC 32 red, green and blue DACs on.

The store entrance 54d and the activation input 56d for the screensaver down counter 46 as well as the activation input 56e the symbol move down counter 48 receive their input from the input 72 by the CPU interface 14 is transmitted.

The zero output 58d the screensaver down counter 46 is with the mux 26 and the command generator 53 connected. The zero output 58e of the symbol movement down counter 48 is as well with the command generator 53 connected.

In operation is the OLED field 34 the mobile electronic device generally in one of two modes of operation. The mode 1 may be defined as the operating mode for the field, whereby the user interacts with the mobile electronic device while the mode 2 the screensaver mode is. As will be apparent to those skilled in the art, in the mode 1 the host CPU 12 on the in the ram 16 stored image data and changes as required by a software application running on the host CPU 12 the mobile electronic device is running. After receiving a signal from the CPU interface 14 calls the display controller 20 a line of image data via the MUX 26 from (the the display control device 20 with the display RAM 16 in mode 1 connects) and sends a line of image data to the segment driver 30 , After determining the location for the image data on the field and receiving a pulse from the common driver 28 , transmits the segment driver 30 then the line of image data to the OLED field 34 , This process is repeated for each line of the image and continues to repeat the image on the OLED field 34 maintain. Once the image has been displayed in the box, the CPU interface initiates 14 the screensaver down counter 46 by sending a signal to the store input 54d the screensaver down counter 46 , This value is entered into the screensaver down counter each time 46 loaded when an activity on the CPU section Job 14 takes place or if a line of image data from the display RAM 16 to the OLED field 34 is transmitted. This value is decremented after each clock pulse, and when the value is decremented to zero, the mobile electronic device and the display panel enter screen saver mode.

With reference to 3 A flow chart of a method for providing a screen saver for a mobile electronic device is shown. First, it checks to see if there is any CPU interface activity. For example, when a WRITE line switches toggles, the screen saver down counter becomes 46 Reloaded. The screensaver down counter 46 decrements with each pulse of the clock signal 50 from the CPU interface 14 , As long as the screensaver down counter 46 does not reach zero and a CPU activity is detected, the mobile electronic device remains in the mode 1 , When the screensaver down counter 46 Zero reaches, gets in step 102 detects that the screen saver timeout has expired. In this case, there was no activity on the CPU interface during the allocated time period and the screen saver down counter 46 has not been reloaded, indicating a need to change from the operating mode to the screen saver mode. The screensaver down counter 46 then sends a signal over its zero output 58d to the mux 26 to the connection for the display control device 20 from the display RAM 16 to the screen saver RAM 18 to turn on, so that the display control device 20 the image data from the screen saver RAM 18 retrieves (step 104 ). The signal from zero output 58d will also be sent to the command generator 53 to generate its two instructions.

In the mode 2 is the picture on the display 34 preferably black or off except the small image area. The image data is stored in the screen saver RAM 18 saved. The image data is taken from the screen saver RAM 18 by the display control device 20 retrieved (step 106 ) and the screen saver image display location is also provided by the display controller 20 via the command generator 53 determined (step 108 ) and in the field 34 displayed (step 110 ) as described above with reference to the display memory 16 is described. The displayed location of the screen saver image is not fixed and moves randomly (or according to predefined motions) in the field as from the command generator 53 and the symbol movement down counter 48 is defined. The movement of the screen saver image allows the primary colors of the OLED field 34 to age uniformly. In addition to the moving screen saver image, in a preferred embodiment, the color of the screen saver image changes at a rate different from the RGB timers 35 is defined. These timers 35 are programmed to adjust the life of the three primary colors of the OLED field.

Once the symbol move down counter 48 is activated, the start address of the screen saver image changes every time the symbol movement down counter is turned on 48 Reached zero. The counter is initially input 90 from the host CPU 12 via the CPU interface 14 is set and decremented with each clock pulse when the mobile electronic device and the display panel are in the screen saver mode. When the symbol movement down counter 48 Reaches zero, the symbol movement timer has expired (step 112 ) and a signal is from the zero output 58e of the symbol movement down counter 48 to the command generator 53 transmit a new address for that on the OLED field 34 generated image to be displayed. This new address is then sent to the display controller 20 and the screen saver image is retrieved (step 106 ). If the symbol movement timer has not expired, a check is made to verify that color aging is enabled (step 114 ). If not, a check is made to verify a CPU interface activity (step 100 ). In the absence of an interface activity, the steps become 112 . 106 - 110 if required, and 114 repeated. When an interface activity is detected, the screen saver mode is exited, as in 101 will be shown.

When color aging is enabled, all DACs are turned off (step 115 ) until the RED, GREEN and BLUE down counters 38 . 42 and 45 loaded and activated. The RED, GREEN and BLUE down counters 38 . 42 and 45 are then used to control the relative aging factor for these field colors. In a preferred embodiment, RED DAC and the RED down counter become 38 activated (step 116 ) by inputs 70 and 90 from the host CPU and the OR function of the zero signal 58d from the screensaver down counter 46 and the null signal 58c from the BLUE down counter 45 , If the RED down counter 38 Zero reaches, gets a signal from its zero output 58a transferred to an AND gate along with the input 70 from the CPU interface 14 and the signal from the zero output 58d the screensaver down counter 46 , and the RED DAC disable signal 62 disables the RED DAC (step 118 ). The signal from zero output 58a will also be sent to the activation input 56b of the GREEN down counter 42 to enable the GREEN DAC and GREEN timer (step 120 ). If the GREEN down counter 42 on Zero decrements a signal from its zero output 58b transferred to an AND gate along with the input 70 from the CPU interface 14 and the signal from the zero output of the screen saver down counter 46 and the GREEN DAC disable signal 64 deactivates the GREEN DAC (step 122 ). The signal from zero output 58b will also be sent to the activation input 56b of the BLUE down counter 45 to activate the BLUE DAC and BLUE timer (step 124 ). As soon as the BLUE down counter decrements to zero, a signal is output from its zero output 58c transferred to an AND gate along with the input 70 from the CPU interface and the signal from the zero output of the screen saver down counter 46 and the BLUE DAC disable signal 66 deactivates the BLUE DAC (step 126 ). The signal from zero output 58c is also transferred to the OR gate and with the signal from the zero output 58d the screensaver down counter 46 connected. The result of this OR function is then sent to the store input 54a of the RED down counter 38 transfer. This process continues until the CPU interface the screensaver down counter 46 via the loading signal 54d reloads, which causes the screensaver down counter 46 and the zero output 58d become active, which activates all three DACs.

As is apparent, there are many different implementations and methods for driving an OLED field 34 , Other OLED drivers may use external RAM or have a common IC and a segment IC as a separate component. Further, in other embodiments, the screen saver control device may be included in the display control device 20 be included.

It should also be noted that although the step 100 is shown as a separate step referring to other steps in the 3 As shown, an interface activity preferably interrupts a screen saver mode such that the screen saver mode is exited when such activity is detected.

In a further embodiment of the invention Data such as the time data, system status data or the number of unread email data will be displayed in the screen saver image.

The Embodiments described above The present invention is intended to be illustrative only. changes, Modifications and Variations of Specific Embodiments can from Professionals without departing from the scope of the invention, which is exclusive of attached here claims is defined.

Claims (8)

System for providing a screen saver for a display field ( 34 ) a mobile electronic device comprising: a memory ( 18 ) for storing a screensaver image; Display control means configured to save the screensaver image from memory during a screen saver mode ( 18 ) and the screen saver image to the display panel ( 34 ) transferred to; and screen saver control means ( 22 ) for switching the operation of the display panel ( 34 ) from an operation mode to the screen saver mode after a predetermined period of inactivity by a CPU interface ( 14 ) and to control primary colors of the display panel ( 34 ) to increase the life of the primary colors of the display ( 34 ), wherein the screen saver control means ( 22 ), an activity through the CPU interface ( 14 ), characterized in that the screen saver control means ( 22 ) continue a set of timers ( 38 . 42 . 45 ), wherein each of these timers is designed, the use time of one of the primary colors of the display panel ( 34 ) during screen saver mode to increase the life of the primary colors of the display panel ( 34 ). The system according to claim 1, wherein the display control means comprises: a display control device (10) 20 ); a segment driver ( 30 ); and a common driver ( 28 ). System according to one of the preceding claims, wherein the screen saver control means ( 22 ) a screensaver timer ( 46 ) having. The system of claim 1, wherein each timer of the set of RGB timers ( 38 . 42 . 45 ) is connected to a digital-to-analogue converter that corresponds to one of the primary colors to match the primary colors on the display panel ( 34 ) to activate and deactivate. System according to one of claims 3 or 4, wherein the screen saver control means ( 22 ) further comprises: a symbol movement timer ( 48 ) configured to count down a symbol movement time; and a command generator ( 53 ) for generating a new screen saver image display location after the symbol weight time has passed. System according to claim 5, wherein the screen saver image at least time data, system status data or a number of unread e-mail data. Method for providing a screen saver for a display field ( 34 ) a mobile electronic device comprising the steps of: detecting a period of inactivity; Transmitting a signal to a display control device ( 20 ) indicating the detection of the period of inactivity; Get a screen saver image from memory ( 18 ); Determining a display location of the screen saver image on the display panel ( 34 ); Display the screensaver image on the display panel ( 34 ) at the display location; characterized by monitoring the usage time of each primary color of the display panel during the screen saver mode; and deactivating the primary colors during display of the screen saver image such that colors are obtained. The method of claim 7, further comprising the steps of: detecting a symbol movement time-out; Generating a new display location for the screen saver image; Transmitting the new display location to the display controller ( 20 ); and displaying the screensaver image at the new display location.