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LC5512MC-5Q672I Datasheet(PDF) 17 Page - Lattice Semiconductor |
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LC5512MC-5Q672I Datasheet(HTML) 17 Page - Lattice Semiconductor |
17 / 92 page Lattice Semiconductor ispXPLD 5000MX Family Data Sheet 17 Output Sharing Array (OSA) A number of I/O pads are available in each sysIO bank to route the selected number of macrocells from the MFB outputs directly to the I/O pads in logic mode. In the ispXPLD 5000MX, the large number of inputs and PTs to the MFB as well as the presence of the PTSA can cover most routing flexibility of signals to I/O cells. The Output Shar- ing Array gives additional routing capability and I/O access to an MFB when a wide output function takes up the whole MFB and cannot be easily divided across multiple MFBs. By using the OSA, the wide output function, such as 32-bit FIFO, can have all of its output signals from the one MFB routed to I/O cells. In a given I/O block, the wide output functions must share the I/O pads with other logic functions. The OSA bypass option routes the MFB signal directly to the I/O cell, allowing a direct connection to the I/O cell. The logic functions use the option to provide faster speed to the outputs. The Logic Signal Connection tables list the OSA bypass as the primary macrocell and OSA options as alternate macrocells. Similarly, the Alternate Input listing in the table shows the alternate macrocell input connection for a given I/O pin. Figure 17 shows the alternate macrocell connections in an I/O cell. sysIO Banks The ispXPLD 5000MX devices are divided into four sysIO banks, consisting of multiple I/O cells, where each bank is capable of supporting 16 different I/O standards. Each sysIO bank has its own I/O voltage (VCCO) and reference voltage (VREF) resources allowing complete independence from the others. I/O Cell The I/O cell of the ispXPLD 5000MX devices contains an output enable (OE) MUX, a programmable tri-state output buffer, a programmable input buffer, and programmable bus-maintenance circuitry. The I/O cell receives inputs from its associated macrocells and the device pin. The I/O cell has a feedback line to its associated macrocells and a direct path to GRP. The output enable (OE) MUX selects the OE signal per I/O cell. The inputs to the OE MUX are the four global PTOE signals, PTOE and the two GOE signals. The OE MUX also has the ability to choose either the true or inverse of each of these signals. The output of the OE MUX goes through a logical AND with the TOE signal to allow easy tri-stating of the outputs for testing purposes. The MFBs are grouped into segments of four for the purpose of generating Shared PTOE signals. Each Shared PTOE signal is derived from PT 163 from one of the four MFBs. Table 10 shows the segments. The PTOE signal is derived from the first product term in each macrocell cluster, which is directly routed to the OE MUX. Therefore, every I/O cell can have a different OE signal. Figure 17 is a graphical representation of the I/O cell. |
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