EP2C20F256C8N Datasheet, PDF(98/470 Page) Altera Corporation – Cyclone II Device Handbook, Volume 1

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EP2C20F256C8N Datasheet, PDF (98/470 Pages) Altera Corporation – Cyclone II Device Handbook, Volume 1

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Cyclone II Hot-Socketing Specifications

Devices Can Be Driven before Power-Up

You can drive signals into the I/O pins, dedicated input pins, and

dedicated clock pins of Cyclone II devices before or during power-up or

power-down without damaging the device. Cyclone II devices support

any power-up or power-down sequence (VCCIO and VCCINT) to simplify

system level design.

I/O Pins Remain Tri-Stated during Power-Up

A device that does not support hot socketing may interrupt system

operation or cause contention by driving out before or during power-up.

In a hot-socketing situation, the Cyclone II deviceâs output buffers are

turned off during system power-up or power-down. The Cyclone II

device also does not drive out until the device is configured and has

attained proper operating conditions. The I/O pins are tri-stated until the

device enters user mode with a weak pull-up resistor (R) to 3.3V. Refer to

Figure 4â1 for more information.

1

You can power up or power down the VCCIO and VCCINT pins in

any sequence. The VCCIO and VCCINT must have monotonic rise

to their steady state levels. (Refer to Figure 4â3 for more

information.) The power supply ramp rates can range from

100 Âµs to 100 ms for non âAâ devices. Both VCC supplies must

power down within 100 ms of each other to prevent I/O pins

from driving out. During hot socketing, the I/O pin capacitance

is less than 15 pF and the clock pin capacitance is less than 20 pF.

Cyclone II devices meet the following hot-socketing

specification.

â The hot-socketing DC specification is | IIOPIN | < 300 ÂµA.

â The hot-socketing AC specification is | IIOPIN | < 8 mA for 10 ns or

less.

This specification takes into account the pin capacitance but not board

trace and external loading capacitance. You must consider additional

capacitance for trace, connector, and loading separately.

IIOPIN is the current at any user I/O pin on the device. The DC

specification applies when all VCC supplies to the device are stable in the

powered-up or powered-down conditions. For the AC specification, the

peak current duration due to power-up transients is 10 ns or less.

A possible concern for semiconductor devices in general regarding hot

socketing is the potential for latch-up. Latch-up can occur when electrical

subsystems are hot socketed into an active system. During hot socketing,

the signal pins may be connected and driven by the active system before

4â2

Cyclone II Device Handbook, Volume 1

Altera Corporation

February 2007

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