1. A display system, comprising:
a display panel for displaying an image, the display panel including a glass substrate;
a plurality of lead lines formed on the glass substrate; and
a display drive circuit for controlling the displaying of the image by the display panel, the display drive circuit being formed as a chip and connected to the lead lines, the display drive circuit comprising:
a rectangularly-shaped substrate having a main surface and having a longer side that is longer than another side of the rectangularly-shaped substrate;
a power supply line formed on the main surface of the rectangularly-shaped substrate, the power supply line being disposed along the longer side of the rectangularly-shaped substrate;
a plurality of switches disposed along the power supply line, each of which is connected to the power supply line;
a plurality of output terminals formed on the main surface of the rectangularly-shaped substrate and connected to the power supply line between an end portion of the power supply line and a center portion of the power supply line;
first ground terminals formed at the end portion of the power supply line; and
second ground terminals formed at the center portion of the power supply line
wherein an amount of a current flowing in the power supply line to the first ground terminals is smaller than an amount of a current flowing in the power supply line to the second ground terminals.
2. A display system as claimed in claim 1, wherein a size of each terminal of the second ground terminals is the same as that of each terminal of the first and second ground terminals, and
wherein a number of power supply terminals of the second ground terminals is greater than that of the first ground terminals.
3. A display system as claimed in claim 1, wherein each pitch between terminals of the second ground terminals is greater than that of the first ground terminals.
4. A display system as claimed in claim 1, wherein the power supply line is a ground line supplying a ground electric potential, and wherein each of the first and second ground terminals supplies the ground electric potential.
5. A display system as claimed in claim 1, wherein a ratio of a length of the power supply line to a width of the power supply line is 20:1.
6. A display system as claimed in claim 1, wherein a total planar dimension of the second ground terminals is set to be larger than a total planar dimension of the first ground terminals.
7. A display system as claimed in claim 1, wherein each of pitches between terminals of the second ground terminals is set to be greater than each of pitches between terminals of the first ground terminals.
8. A display system as claimed in claim 1,
wherein each of the first and second ground terminals has a same size, and
wherein a number of the second ground terminals is greater than that of the first ground terminals.
9. A display system, comprising:
a display means for displaying an image, the display means including a glass substrate;
a plurality of lead lines formed on the glass substrate; and
a control means for controlling the displaying of the image by the display means, the control means being formed as a chip and connected to the lead lines, the control means comprising:
a rectangularly-shaped substrate having a main surface and having a longer side that is longer than another side of the rectangularly-shaped substrate;
a power supply means for supplying a power, which is formed on the main surface of the rectangularly-shaped substrate, the power supply means being disposed along the longer side of the rectangularly-shaped substrate;
switching means for switching, which are disposed along the power supply means, each of which is connected to the power supply means;
an output means formed on the main surface of the rectangularly-shaped substrate and connected to the power supply means between an end portion of the power supply means and a center portion of the power supply means;
a first means for grounding, which is formed on the main surface of the rectangularly-shaped substrate and connected to the end portion of the power supply means; and
a second means for grounding, which is formed on the main surface of the rectangularly-shaped substrate and connected to the center portion of the power supply means,
wherein an amount of a current flowing in the power supply means to the first means for grounding is smaller than an amount of a current flowing in the power supply means to the second means for grounding.
10. A display system as claimed in claim 9, wherein each of the first and second means for grounding is grounded.
11. A display system as claimed in claim 9,
wherein the first and second means for grounding includes first and second ground terminals respectively,
wherein each of the first and second ground terminals has a same size, and
wherein a number of the second ground terminals is greater than that of the first ground terminals.
12. A display system as claimed in claim 9, wherein a total planar dimension of the second means for grounding is set to be larger than a total planar dimension of the first means for grounding.
13. A display driver circuit, comprising:
a rectangular-shaped substrate having a main surface and having a longer side that is longer than another side of the rectangular-shaped substrate;
a power supply line formed on the main surface of the rectangular-shaped substrate, the power supply line being disposed along the longer side of the rectangular-shaped substrate;
a plurality of switches disposed along the power supply line, each of the switches being connected to the power supply line;
a plurality of output terminals formed on the main surface of the rectangular-shaped substrate and connected to the power supply line between an end portion of the power supply line and a center portion of the power supply line;
first ground terminals formed on the main surface of the rectangular-shaped substrate and connected to the end portion of the power supply line; and
second ground terminals formed on the main surface of the rectangular-shaped substrate and connected to the center portion of the power supply line,
wherein an amount of a current flowing in the power supply line to the first ground terminals is smaller than an amount of a current flowing in the power supply line to the second ground terminals.
14. A display driver circuit as claimed in claim 13,
wherein each of the first and second ground terminals has a same size, and
wherein a number of the second ground terminals is greater than that of the first ground terminals.
15. A display driver circuit as claimed in claim 13, wherein a total planar dimension of the second ground terminals is set to be larger than a total planar dimension of the first ground terminals.
16. A display system, comprising:
a display panel for displaying an image, the display panel including a glass substrate;
a plurality of lead lines formed on the glass substrate; and
a display drive circuit for controlling the displaying of the image by the display panel, the display drive circuit being formed as a chip and connected to the lead lines, the display drive circuit comprising:
a rectangularly-shaped substrate having a main surface and having a longer side that is longer than another side of the rectangularly-shaped substrate;
a power supply line formed on the main surface of the rectangularly-shaped substrate, the power supply line being disposed along the longer side of the rectangularly-shaped substrate;
a plurality of switches disposed along the power supply line, each of which is connected to the power supply line;
first output terminals formed on the main surface of the rectangularly-shaped substrate and connected to one of end portions of the power supply line; and
second output terminals formed on the main surface of the rectangularly-shaped substrate and connected to a center portion of the power supply line,
wherein an amount of a current flowing in the power supply line to the first output terminals is smaller than an amount of a current flowing in the power supply line to the second output terminals,
wherein a size of each terminal of the second output terminals is the same as that of each terminal of the first and second output terminals, and
further wherein a number of power supply terminals of the second output terminals is greater than that of the first output terminals.
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. An adjustable beverage container holder for holding a beverage container at least partially therein, said holder comprising:
a sleeve for receiving a beverage container, said sleeve having a sleeve axis;
a movable jaw located at least partially within said sleeve, said jaw having at least one groove and a container surface coaxial to said sleeve axis; and
an adjusting ring rotatably mounted to a top portion of said sleeve, said adjusting ring having a rigid member engaged with said at least one groove of said movable jaw;
said adjusting ring and said movable jaw cooperating to receive the beverage container on an inside of said movable jaw such that said container surface can contact the beverage container by rotation of said adjusting ring, for the purpose of holding the beverage container once placed at least partially within said sleeve.
2. The adjustable beverage container holder of claim 1 further comprising a container holder with a plurality of jaws located at least partially within said sleeve.
3. The adjustable beverage container holder of claim 1 wherein said at least one groove includes gear teeth.
4. The adjustable beverage container holder of claim 1 wherein movement of said movable jaw is aided by a guidance means.
5. The adjustable beverage container holder of claim 4 wherein said guidance means is selected from the group consisting of a guide rod, a guide rail and combinations thereof.
6. The invention of claim 5 wherein said guide rod is fixedly attached to said sleeve.
7. The invention of claim 5 wherein said guide rod is fixedly attached to an outer casing.
8. The adjustable beverage container holder of claim 5 wherein said guide rail is fixedly attached to said sleeve.
9. An adjustable beverage container holder for holding a beverage container at least partially therein, said holder comprising:
a sleeve for receiving a beverage container, said sleeve having a sleeve axis;
a plurality of movable jaws located at least partially within said sleeve, said jaws having at least one groove and container surfaces coaxial to said sleeve axis;
an adjusting ring rotatably mounted to said a top portion of said sleeve, said ring having a rigid member engaged with said at least one groove of each said movable jaw, for the purpose of moving said jaw closer to and further away from said sleeve axis when said ring is rotated relative to said sleeve about said sleeve axis; and
a guidance means, said guidance means aiding the guidance of said jaws and selected from the group consisting of a guide rod located within a jaw aperture, a guide rail fixedly attached to said sleeve, and combinations thereof;
said adjusting ring and said movable jaw cooperating to receive the beverage container on an inside of said movable jaw such that said container surface can contact the beverage container once received within said sleeve by rotation of said adjusting ring.
10. The adjustable beverage container holder of claim 9 wherein said at least one groove includes gear teeth.
11. The invention of claim 1 wherein said movable jaw includes a jaw pivot axis, said jaw axis located at least partially within said sleeve.
12. The invention of claim 11 wherein said jaw axis includes a jaw pivot rod, said rod fixedly attached to said sleeve.
13. The invention of claim 11 wherein said jaw includes a gear arm extending arcuately from said jaw.
14. The invention of claim 13 wherein said adjusting ring includes a rigid member engaged with said gear arm extending arcuately from said jaw.
15. An adjustable beverage container holder comprising:
a sleeve for receiving a beverage container, said sleeve having a sleeve axis;
a plurality of movable jaws located at least partially within said sleeve, said jaws having container surfaces coaxial to said sleeve axis and movable about a jaw pivot axis located at least partially within said sleeve;
a gear arm having at least one groove, said gear arm fixedly attached and extending arcuately from each jaw; and
an adjusting ring rotatably mounted to said sleeve, said ring having a rigid member engaged with said groove on each gear arm for the purpose of moving said jaw closer to and further away from said sleeve axis when said ring is rotated relative to said sleeve about said sleeve axis.