EPM240G Datasheet, PDF(37/86 Page) Altera Corporation

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EPM240G Datasheet, PDF (37/86 Pages) Altera Corporation – MAX II Device Family

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Chapter 2: MAX II Architecture

I/O Structure

2â29

Table 2â5. MAX II Devices and Speed Grades that Support 3.3-V PCI Electrical Specifications and

Meet PCI Timing

Device

EPM1270

EPM2210

33-MHz PCI

All Speed Grades

66-MHz PCI

â3 Speed Grade

Schmitt Trigger

The input buffer for each MAX II device I/O pin has an optional Schmitt trigger

setting for the 3.3-V and 2.5-V standards. The Schmitt trigger allows input buffers to

respond to slow input edge rates with a fast output edge rate. Most importantly,

Schmitt triggers provide hysteresis on the input buffer, preventing slow-rising noisy

input signals from ringing or oscillating on the input signal driven into the logic array.

This provides system noise tolerance on MAX II inputs, but adds a small, nominal

input delay.

The JTAG input pins (TMS, TCK, and TDI) have Schmitt trigger buffers that are always

enabled.

1 The TCK input is susceptible to high pulse glitches when the input signal fall time is

greater than 200 ns for all I/O standards.

Output Enable Signals

Each MAX II IOE output buffer supports output enable signals for tri-state control.

The output enable signal can originate from the GCLK[3..0] global signals or from

the MultiTrack interconnect. The MultiTrack interconnect routes output enable signals

and allows for a unique output enable for each output or bidirectional pin.

MAX II devices also provide a chip-wide output enable pin (DEV_OE) to control the

output enable for every output pin in the design. An option set before compilation in

the Quartus II software controls this pin. This chip-wide output enable uses its own

routing resources and does not use any of the four global resources. If this option is

turned on, all outputs on the chip operate normally when DEV_OE is asserted. When

the pin is deasserted, all outputs are tri-stated. If this option is turned off, the DEV_OE

pin is disabled when the device operates in user mode and is available as a user I/O

pin.

Programmable Drive Strength

The output buffer for each MAX II device I/O pin has two levels of programmable

drive strength control for each of the LVTTL and LVCMOS I/O standards.

Programmable drive strength provides system noise reduction control for high

performance I/O designs. Although a separate slew-rate control feature exists, using

the lower drive strength setting provides signal slew-rate control to reduce system

noise and signal overshoot without the large delay adder associated with the

slew-rate control feature. Table 2â6 shows the possible settings for the I/O standards

with drive strength control. The Quartus II software uses the maximum current

strength as the default setting. The PCI I/O standard is always set at 20 mA with no

alternate setting.

MAX II Device Handbook

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