All The Claims

1. An integrated card reader of memory card, which is a card reader that can accept insertion of miscellaneous distinct specification memory cards, and which at least includes an upper socket, a base board, a connector, a lower socket, integrating chip, multiple start-up and connecting terminals; and by way of integrating chip, connector, as well as the layout of printed circuit on the base board, multiple connecting terminals are integrated as one connecting specification, which feature:
A base board, which is a printed circuit board embedded with an integrating chip, and which is laid with printed circuit to connect distinct specification terminals to the integrating chip, and which is provided with connecting terminals and upper, lower sockets at both the front side as well as the back side of base board;
an integrating chip, which is an integrated circuit integrating all terminals, and one end of which is connected to the connector; and
a connector, which is used for connecting the output of integrating chip;
such that, the card reader utilizes integrating chip, connector, and the printed circuit on the base board to integrate connecting terminals of miscellaneous specifications as one connecting specification, and it becomes unnecessary to provide complicated connecting circuits, thus facilitates being planted or integrated into related electrical appliances:

The integrated card reader of memory card in accordance with claim 1, wherein the wall faces at both sides of embedded hole of the upper socket are shaped to form fall ladder with different widths and heights, and the structure of connecting terminals are layered to allow insertion of distinct specification memory cards.
2. The integrated card reader of memory card in accordance with claim 1, wherein the connecting terminals and start-up terminals as well as the connector are provided at the same surface of base board, such that the welding points are clustered and exposed to facilitate manufacturing processes as well as post-process examination and maintenance.
3. The integrated card reader of memory card in accordance with claim 1, wherein the integrating chip utilizes the printed circuit laid on the base board to integrate terminals of distinct specifications, and output through the connector after processing, thus unifies the connection to connecting terminals of distinct specification memory cards.
4. The integrated card reader of memory card in accordance with claim 1, wherein the connector is a male connecting part.
5. The integrated card reader of memory card in accordance with claim 1, wherein the connector can be connect to the main unit side through a connecting cable.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A mobile terminal, comprising:
a display including a touch screen and configured to display a graphical representation of a touch graphical moveable menu bar on the touch screen that partitions the display into first and second display regions and that can be moved by touching and moving the displayed graphical menu bar; and
a controller configured to re-adjust a divisional boundary of the first and second display regions based on a movement of the menu bar and to perform a function on the mobile terminal in accordance with a sensed touching of the touch screen,
wherein the moveable menu bar comprises at least one touch menu execution button configured to execute a particular function on the terminal when touched,
wherein the at least one touch menu execution button on the movable menu bar comprises a photo execution button,
wherein when the photo execution button is touched, the controller is further configured to display a plurality of photos in one of the first and second display regions, and when one of the photos displayed in said one of the first and second display regions is touched, the controller is further configured to magnify and display the selected photo in the other of the first and second display regions and to maintain displaying the plurality of photos in said one of the first and second display regions,
wherein the display is further configured to sense the user touching the touch screen when the menu bar is not displayed on the touch screen, and the controller is further configured to control the display to display the menu bar on the touch screen based on the sensed user touching the touch screen when the menu bar is not displayed on the touch screen,
wherein when the display senses the user touching and dragging the touch screen in a horizontal direction, the controller is further configured to control the display to display the menu bar on the touch screen at a position the user touches and drags the touch screen in the horizontal direction, and
wherein when the display senses the user touching a left portion of the touch screen and then dragging the touch across the touch screen horizontally, the controller is further configured to control the display to display the menu bar on the touch screen along the touched portion of the touch screen.
2. The mobile terminal of claim 1, wherein the at least one touch menu execution button on the movable menu bar comprises a button configured to execute a text message service on the terminal.
3. The mobile terminal of claim 1, wherein the at least one menu execution button on the moveable menu bar comprises a button configured to display a virtual input device including at least one of a keypad and a keyboard on the touch screen.
4. The mobile terminal of claim 1, wherein the at least one menu execution button on the moveable menu bar comprises a multi-task execution button configured to simultaneously perform multiple tasks on the terminal.
5. The mobile terminal of claim 1, wherein the controller is further configured to execute different tasks on the first and second display regions.
6. The mobile terminal of claim 1, wherein the controller is further configured to display a first task on the first display region and a second task associated with the first task on the second display region.
7. A mobile terminal, comprising:
a touch screen including at least first and second display regions and a menu bar; and
a controller configured to position the menu bar on the touch screen to correspond to a movement of the menu bar from a user touching and moving the menu bar so as to divide the touch screen into said first and second display regions,
wherein the menu bar displayed on the touch screen comprises a graphical representation of a touch graphical moveable menu bar that can be moved by touching and moving the displayed graphical menu bar,
wherein the menu bar comprises at least one touch menu execution button configured to execute a particular function on the terminal when touched,
wherein the at least one touch menu execution button on the movable menu bar comprises a photo execution button,
wherein when the photo execution button is touched, the controller is further configured to display a plurality of photos in one of the first and second display regions, and when one of the photos displayed in said one of the first and second display regions is touched, the controller is further configured to magnify and display the selected photo in the other of the first and second display regions and to maintain displaying the plurality of photos in said one of the first and second display regions,
wherein the touch screen is further configured to sense the user touching the touch screen when the menu bar is not displayed on the touch screen, and the controller is further configured to control the touch screen to display the menu bar on the touch screen based on the sensed user touching the touch screen when the menu bar is not displayed on the touch screen,
wherein when the touch screen senses the user touching and dragging the touch screen in a horizontal direction, the controller is further configured to control the touch screen to display the menu bar on the touch screen at a position the user touches and drags the touch screen in the horizontal direction, and
wherein when the touch screen senses the user touching a left portion of the touch screen and then dragging the touch across the touch screen horizontally, the controller is further configured to control the touch screen to display the menu bar on the touch screen along the touched portion of the touch screen.
8. The mobile terminal of claim 7, wherein when the user drags the menu bar to a new position, the controller is further configured to move the menu bar to the new position on the touch screen.
9. The mobile terminal of claim 7, wherein the at least one menu execution button on the menu bar includes a button configured to display a virtual input device including at least one of a keypad and a keyboard on the touch screen.
10. The mobile terminal of claim 7, wherein the at least one menu execution button on the menu bar includes at least one button configured to execute a text message service and a multi-task performing button configured to simultaneously execute multiple tasks on the terminal.
11. The mobile terminal of claim 7, wherein the menu bar horizontally divides the touch screen such that the first and second display regions correspond to upper and lower display regions.
12. The mobile terminal of claim 7, wherein when the user moves the menu bar to one end of the touch screen, the controller is further configured to display only one of the first and second display regions.
13. The mobile terminal of claim 7, wherein the controller is further configured to execute different tasks on the first and second display regions.
14. The mobile terminal of claim 7, wherein the controller is further configured to display an image of a first task on the first display region and an image of a second task associated with the first task on the second display region.
15. A method of controlling a mobile terminal, the method comprising:
sensing, via a display unit including a touch screen, a user touching a menu bar displayed on touch screen of the mobile terminal as a representation of a touch graphical menu bar that can be moved by touching and moving the displayed graphical menu bar on the mobile terminal;
sensing, via the display unit, a touch and drag operation being performed on the menu bar corresponding to a movement of the menu bar;
issuing a command from the display unit to a controller of the mobile terminal indicating the sensed movement of the menu bar;
re-adjusting, via the controller, a divisional boundary of first and second display regions of the touch screen based on the issued command indicating the sensed movement of the menu bar;
executing a function on the display of the terminal when a touch menu execution button on the menu bar is touched;
sensing the user touching the touch screen when the menu bar is not displayed on the touch screen; and
displaying the menu bar on the touch screen based on the sensed user touching the touch screen when the menu bar is not displayed on the touch screen,
wherein the sensing step senses the user touching and dragging the touch screen in a horizontal direction and the displaying step displays the menu bar on the touch screen at a position the user touches and drags the touch screen in the horizontal direction, and
wherein the sensing step senses the user touching a left portion of the touch screen and then dragging the touch across the touch screen horizontally, and the displaying step displays the menu bar on the touch screen along the touched portion of the touch screen.
16. The method of claim 15, further comprising:
sensing, via a controller, the mobile terminal being rotated; and
controlling, via the controller, the display unit to rotate and display the menu bar on the touch screen based on the sensed rotation of the mobile terminal.
17. The method of claim 15, wherein the menu bar is only the graphical representation of the touch graphical menu bar and is not a mechanical structured attached to a top of the display.

1. A multi flip chip module comprising:
a leadframe having a die pad with upper and lower surfaces and a plurality of outer leads surrounding the die pad;
an integrated circuit mounted on the upper surface of the die pad and having contact areas for receiving bond wires;
bond wires extending from the contact areas on the integrated circuit to the outer leads of the leadframe;
one or more power mosfet semiconductor devices flip chip mounted on the lower surface of the leadframe; and
a molded resin encapsulating the integrated circuit and leaving exposed at least one surface of the power mosfet semiconductor devices.
2. The multichip module of claim 1 wherein the mosfets have source bump contacts extending from the surfaces of the mosfets to the half etched die pad and one or more gate bump contacts for each mosfet extending to a corresponding outer lead.
3. The multichip module of claim 1 wherein the lead frame has leadless contacts comprising a of ball contacts extending from the outer leads for establishing an electrical connection to the contact areas of the integrated circuit via the bond wires and for providing surface mounts for connecting the semiconductor device to a surface of an electrical component board.
4. The multichip module of claim 1 wherein exposed surface(s) of the power mosfets are surface mountable on an electrical component board.
5. A multichip module having a lead frame with a central die pad and peripheral outer leads, an integrated circuit on one side of the die pad, wire bonds for connecting the integrated circuit to outer leads, one or more mosfets having their respective source and gates bump connected to the other side of the central die pad, said central die pad patterned to provide connections to the outer leads from the source and gate bump connections.
6. The multichip module of claim 5 wherein the integrated circuit is encapsulated in an insulating resin.
7. A method for manufacturing a multichip module comprising the steps of;
providing a lead frame with a central die pad having upper and lower surfaces and disposed between opposite lead rails having outer lead areas
etching the lower surface of the central die pad and the rails to provide raised lands for receiving source and gate contacts of one or more mosfets;
attaching an integrated circuit to the upper surface of the central die pad;
wire bonding contact areas of the integrated circuit to the outer lead areas on the leadframe rails;
encapsulating the integrated circuit in an electrically insulating resin;
bump attaching the source and gate of one or more mosfets to the raised lands on the lower side of the central die pad.
8. The method of claim 9 wherein the leadframe adheres to a tape and the tape is removed after the step of encapsulating.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

What is claimed is:

1. In a gas turbine, a plurality of combustors, each having a plurality of outer fuel nozzles arranged about a longitudinal axis of the combustor, a center nozzle disposed substantially along said longitudinal axis, and a single combustion zone;
each said outer fuel nozzle having at least one premix gas passage connected to at least one premix gas inlet and communicating with a plurality of radially extending premix fuel injectors disposed within a dedicated premix tube adapted to mix premix fuel and combustion air prior to entry into the single combustion zone located downstream of the premix tube;
said center nozzle having at least one premix gas passage connected to at least one premix gas inlet and communicating with a plurality of radially extending premix fuel injectors disposed within a dedicated premix tube adapted to mix premix fuel and combustion air prior to entry into the single combustion zone located downstream of the premix tube, and said center nozzle further having a diffusion gas passage connected to a diffusion gas inlet, said diffusion gas passage terminating at a forwardmost discharge end of said center fuel nozzle downstream of said premix fuel injectors but within said dedicated premix tube.
2. The gas turbine of claim 1, wherein said outer fuel nozzles also include a central liquid fuel passage and a water passage encircling said liquid fuel passage for discharging water into the combustion zone of the combustor.
3. The gas turbine of claim 2, wherein said outer fuel nozzles also include an atomizing air passage.
4. The gas turbine of claim 3, wherein said atomizing air passage is coaxial with said liquid fuel passage.
5. The gas turbine of claim 1, wherein said plurality of outer nozzles comprises from three to six outer nozzles, arranged in a circular array about said longitudinal axis of the combustor.
6. In a single stage gas turbine combustor capable of operating in premix and diffusion modes, an assembly comprising an annular array of outer nozzles arranged about a center axis and a center nozzle located on said center axis, wherein said center nozzle is adapted substantially only to connection to premix and diffusion fuel sources and said outer nozzles in said annular array are connected substantially only to premix and liquid fuel sources, a source of atomizing air, and a source of water for water injection.
7. The assembly of claim 6, wherein each said outer fuel nozzle has at least one premix gas passage connected to at least one premix gas inlet and communicating with a plurality of radially extending premix fuel injectors disposed within a dedicated premix tube adapted to mix premix fuel and combustion air prior to entry into a single combustion zone located downstream of the premix tube.
8. The assembly of claim 6, wherein said outer fuel nozzles each include a central liquid fuel passage and a water passage encircling said liquid fuel passage for discharging water into a combustion zone of the combustor.
9. The assembly of claim 6, wherein said array of outer nozzles comprises from three to six outer nozzles, arranged in a circular array about a longitudinal axis of the combustor.
10. The assembly of claim 6, wherein said center nozzle has at least one premix gas passage connected to at least one premix gas inlet and communicating with a plurality of radially extending premix fuel injectors disposed within a dedicated premix tube adapted to mix premix fuel and combustion air prior to entry into a single combustion zone located downstream of the premix tube, and said center nozzle further has a diffusion gas passage connected to a diffusion gas inlet, said diffusion gas passage terminating at a forwardmost discharge end of said center fuel nozzle downstream of said premix fuel injectors but within said dedicated premix tube.
11. A method of operating a combustor wherein the combustor has a plurality of outer fuel nozzles in an annular array arranged about a center axis and a center nozzle located on the center axis, and wherein the annular array is selectively supplied with premix fuel, liquid fuel, water and atomizing air, and further wherein the center nozzle is selectively supplied with diffusion fuel and premix fuel, the method comprising the steps of:
a) at start-up, supplying the center fuel nozzle with diffusion fuel;
b) as the unit load is raised, supplying premix fuel to at least one of the outer nozzles in the annular array;
c) at part load, ceasing diffusion fuel flow to the center nozzle and redirecting a corresponding percentage of fuel to at least one of the outer nozzles in the annular array, thereby to maintain fuel flow constant;
d) after load is further increased, initiating premix fuel supply to the center nozzle without adding to the supply of premix fuel to the outer fuel nozzles in the annular array; and then
e) selectively supplying additional premix fuel to all of the fuel nozzles in the annular array and to the center nozzle as the turbine load increases.
12. The method of claim 1, wherein each fuel nozzle in the annular array of outer nozzles includes an air swirler for swirling air passing through the combustor, and wherein, during steps b), d), and e), premix fuel is supplied to the annular array of outer nozzles at locations upstream of said air swirlers and discharged from said outer nozzles downstream of said air swirlers.