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                PC/104+


                PCI-104 Stack Up / Down Bus Routing

                  2015/4/14 下午 04:07:37      Administrator      General   0 Comments
                Expandability and funtionality are characteristics that must be present in any industrial computer systems. Regardless of applications in industrial automation or any smart city designs, concepts can only be brought to life through the use of other complementary devices such as power, sensor, information retrieval and storage modules. With these assortments of devices, the way in which resources are being distributed within a module stack is thus the key for any hardware development teams to claim victory in the PCI-104 module market. For this purpose, the following article will look into the bus routing of a PCI-104 module stack via a combination of hardware and software.
                Module stack is one of the best selling points for PCI-104 applications, greatly boosting its implementation value. But to enhance this value even further, simultaneous stacking can be achieved by controlling the switch between IDEL, CLK, REQ#, GNT and INT# signals. Diagram 1 shows a basic block diagram for INT# signals in a PCI device. The same configuration can also be apply for REQ# and GNT# signals, enabling the signals to be transferred and completing a stack.


                                             Diagram 1. Layout for INT# signals

                For these signals, a PCI device would require 4 to 1 multipexer (MUX) ICs, like the ones shown in diagram 2, to perform switching, and the output for IDSEL, CLK, REQ#, GNT# and INT# are determined by their voltage levels. This ensures that there will be no identical bus routings and eliminating resource conflicts in PCI modules when they are stacked simultaneously. The choice of ICs for controlling the switching of signals is also the major determinant for the signal’s quality. Regardless of CLK or rise times and transmission delays of the signal, they are still key factors which can’t be overlooked during the design process.


                             Diagram 2. Example of an controlling MUX IC

                 

                Improving the applications for PCI-104 modules through controlling MUX ICs allow sales for these modules to expand to wider user base. Building on the basic functionality of a base board, more cilent-specific requirements can therefore be fulfilled with via module stacking. This is another testimony to the professionalism of 易胜博登录’s development team, and the expandability and applications of their products.


                PS: Case study for PCI-104 product stacking


                易胜博登录’s current PCI-104 products available for purchase include the PFM and EPIC product line as well as a wide range of PCI-104 accessory cards.