Patent Application
20110235291
This invention relates circuit boards with a ball grid array, which is especially useful in high speed electrostatic marking systems.
While the present invention can be used in any circuit board where one component or package is connected to another component or package, it will be described for clarity in reference to xerographic or electrostatic marking systems. The use of ball grid array (BGA) is well known in the printed circuit board assembly (PCBA) art. The literature describes BGA structures as follows:
The BGA is descended from the pin grid array (PGA) which is a package with one face covered (or partly covered) with pins in a grid pattern. These pins are used to conduct electrical signals from the integrated circuit to the printed circuit board (PCB) it is placed on. In a BGA, the pins are replaced by balls of solder stuck to the bottom of the package. The device is placed on a PCB that carries copper pads in a pattern that matches the solder balls. The assembly is then heated, either in a re-flow oven or by an infrared heater, causing the solder balls to melt. Surface tension causes the molten solder to hold the package in alignment with the circuit board, at the correct separation distance, while the solder cools and solidifies. The BGA is a solution to the problem of producing a miniature package for an integrated circuit with many hundreds of pins. Pin grid arrays and small-outline integrated circuit (SOIC) packages were being produced with more and more pins, and with decreasing spacing between the pins, but this was causing difficulties for the soldering process. As package pins got closer together, the danger of accidentally bridging adjacent pins with solder grew. BGAs do not have this problem, because the solder is sometimes factory-applied to the package in exactly the right amount.
In high speed marking systems, speed of the system and space of structures used in the apparatus are very important considerations. Faster speed processors require that the connectors or signal traces be made shorter and at the same time, provide reliable signal traces lengths between packages. Sometimes in the prior art, the inductance in the longer signal traces blocks the signal; in high speed apparatus it is not acceptable to have blockage by an inductor. To minimize blockage, the present invention makes the length of the signal traces as short as possible and thereby minimizing the inductance.
A component on a printed circuit board is made up of a package which houses at least one silicone chip. Each package performs a specific function and each interacts with other packages by use of signal traces. For example, in a high speed copier coordinating the various processing stations exactly is not only desirable but is also necessary for proper functioning. A primary purpose of the present invention is to push the PCB architecture to a higher performance level by improving the time of package or component interaction with each other. The solder balls of the BGA are bonded on the bottom surface of the package and are the outer terminal of the package.
Coordinated ball grid array pairs are another way besides signal traces to provide connections between packages or components. The use of ball grid arrays in PCB are described in detail in U.S. Pat. Nos. 6,809,537B2 and 6,861,761 B2, the disclosures of these two patents are incorporated by reference into the present disclosure.
High speed transitions on DDR signals and on expected future VCSEL ROS drive signals are approaching 200 pS, limiting trace lengths to well less than 1 inch to avoid reflections. DDR signal trace design already cannot be limited to 1 inch and require termination or drive strength calibration. The novel idea of this invention is the back-to-back arrangement of BGA packages with their solder balls and signal input/outputs (I/O's) such arranged for the shortest interconnect paths from one BGA package to the other. In today's Printed Circuit Board (PCB) process, this would mean all interconnects implemented with vias—optimally; or otherwise, interconnects, implemented with vias and signal traces, together short enough to avoid the necessity of signal trace termination. A purpose of the use of back-to-back ball grid array (BGA) packages, one on each side of a PCB includes use for high speed scanning or image path electronics. The solder balls would be coordinated for minimum signal paths from one package to the other across back-to-back solder balls connected by a via. Exemplar application would be VCSEL on one side and ASIC driver on the other. A difference in the present invention from the prior art is application to high speed electronics with connection through the board between back-to-back devices.
Rather than position the packages on a PCB first or upper face or side horizontally placed in relation to each other with long signal traces or connections, the present invention positions the packages in vertical alignment. In the present invention a first package is positioned on the upper side of the PCB, and a second package is positioned immediately below the first package on the lower side of the PCB. It is critical to the present invention that the first and second packages not only be in physical alignment but also the solder balls and I/Os of each package must be in signal alignment, as will be shown in the drawings. Signal alignment refers to each signal from the top BGA package, being directly across the printed circuit board (PCB) for its counterpart on the other BGA package on the lower side. In the case of a VCSEL and an ASIC Driver, the solder ball for each ASIC driver's output signal, DriveSig01 for example, would have to be directly across the PCB from the solder ball for the VCSEL that output drives, in this case, VCSEL01. By this vertical alignment of packages, termination resistors are not needed, and a huge space savings on the PCB is accomplished. Thus, the present invention provides a PCB with packages in vertical alignment on the upper and lower faces of the PCB, with the packages in both physical alignment and in signal alignment. The PCB of this invention is particularly suitable for use in a controller used in a high speed copier or marking systems.
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In an embodiment of the present invention shown in
The illustrations of
The connection between BGA of upper package 15 and lower aligned package 18 provides both physical package vertical alignment and signal alignment which are both necessary to the optimum implementation of this present invention. The length of signal trace or connection 16a is only limited by the thickness 23 of PCB of the present invention. Faster speed processors have required making the signal trace 16a shorter than trace 16 as shown in
In summary, the present invention provides a novel high speed machine system and a novel printed circuit board assembly. This high speed electrostatic marking system comprises conventional xerographic stations, at least one sensor and at least one system controller. The system controller comprises a printed circuit board assembly PCBA that comprises a PCB substrate having an upper surface and a lower surface. At least a first component or package is positioned on the upper surface, and at least a second component or package is positioned on the lower surface of the PCB. The first component or package has a ball grid array (BGA) positioned on its bottom surface, and the second component or package has a ball grid array (BGA) positioned on its top surface. A connector or signal trace electronically connects the first and second components. In both the marking system and the PCBA of this invention the connector has a minimal signal path length defined by a thickness of the PCB substrate plus the thickness of the BGA arrays on the first and second components. The BGA arrays on the first and second components are substantially physically vertically aligned with each other, and the BGA arrays on the first and second components are in signal alignment with each other. The connector, because of its relatively short length, is configured to avoid the necessity of the use of a signal trace termination. In one embodiment of the marking system and the PCBA, the connector or signal path has a length of less than one quarter inch. The connector or signal path is configured to avoid the necessity of connector terminal resistors or other termination techniques in said PCBA, thereby permitting substantially small size PCBs to result thereby. In the PCBA the signal transitions are as fast as 200 pS. The PCBA is configured to accommodate high speed scanning electronics.
The printed circuit board of this invention comprises a PCB substrate having an upper surface and a lower surface. At least a first component or package is positioned on the upper surface, and at least a second component or package positioned on the lower surface of the PCB. The first component or package has a ball grid array BGA positioned on its bottom surface, and the second component or package has a ball grid array BGA positioned on its top surface. A connector or signal trace electrically connects the first and second components.
It will be appreciated that variations of the above-disclosed and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Various presently unforeseen or unanticipated alternatives, modifications, variations, or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the following claims.
