M1A3P1000-1PQ208M Datasheet, PDF(101/212 Page) Microsemi Corporation – Military ProASIC3/EL Low Power Flash FPGAs with Flash*Freeze Technology

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M1A3P1000-1PQ208M Datasheet, PDF (101/212 Pages) Microsemi Corporation – Military ProASIC3/EL Low Power Flash FPGAs with Flash*Freeze Technology

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Military ProASIC3/EL Low Power Flash FPGAs

Differential I/O Characteristics

Physical Implementation

Configuration of the I/O modules as a differential pair is handled by Designer software when the user

instantiates a differential I/O macro in the design.

Differential I/Os can also be used in conjunction with the embedded Input Register (InReg), Output

Register (OutReg), Enable Register (EnReg), and Double Data Rate (DDR). However, there is no

support for bidirectional I/Os or tristates with the LVPECL standards.

LVDS

Low-Voltage Differential Signaling (ANSI/TIA/EIA-644) is a high-speed, differential I/O standard. It

requires that one data bit be carried through two signal lines, so two pins are needed. It also requires

external resistor termination.

The full implementation of the LVDS transmitter and receiver is shown in an example in Figure 2-26. The

building blocks of the LVDS transmitter-receiver are one transmitter macro, one receiver macro, three

board resistors at the transmitter end, and one resistor at the receiver end. The values for the three driver

resistors are different from those used in the LVPECL implementation because the output standard

specifications are different.

Along with LVDS I/O, military ProASIC3 also supports Bus LVDS structure and Multipoint LVDS (M-

LVDS) configuration (up to 40 nodes).

OUTBUF_LVDS FPGA

Bourns Part Number: CAT16-LV4F12

P

165 ï

P

Z0 = 50 ï

140 ï

100 ï

N

165 ï

Z0 = 50 ï

N

Figure 2-26 â¢ LVDS Circuit Diagram and Board-Level Implementation

FPGA

+

â

INBUF_LVDS

Revision 3

2- 87

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