EP1S40F780C7 Datasheet, PDF(749/864 Page) Altera Corporation – Stratix Device Handbook, Volume 1

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EP1S40F780C7 Datasheet, PDF (749/864 Pages) Altera Corporation – Stratix Device Handbook, Volume 1

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Configuring Stratix & Stratix GX Devices

Figure 11â16 shows the PPA configuration circuit. An optional address

decoder controls the deviceâs nCS and CS pins. This decoder allows the

microprocessor to select the Stratix or Stratix GX device by accessing a

particular address, simplifying the configuration process.

Figure 11â16. PPA Configuration Circuit

VCC (1)

10 kÎ©

Address Decoder

ADDR

VCC (1)

Memory

ADDR DATA[7..0]

Microprocessor

10 kÎ© VCC (1)

10 k Î©

Stratix Device

VCC

GND

nCS

CS

CONF_DONE

nSTATUS

nCE

DATA[7..0]

nWS

nRS

nCONFIG

RDYnBSY

MSEL2

MSEL1

MSEL0

nCEO

GND

N.C.

VCC (1)

10 kÎ©

DCLK

Note to Figure 11â16:

(1) The pull-up resistor should be connected to the same supply voltage as the Stratix or Stratix GX device.

The deviceâs nCS or CS pins can be toggled during PPA configuration if

the design meets the specifications for tCSSU, tWSP, and tCSH given in

Table 11â10 on page 11â36. The microprocessor can also directly control

the nCS and CS signals. You can tie one of the nCS or CS signals to its

active state (i.e., nCS may be tied low) and toggle the other signal to

control configuration.

Stratix and Stratix GX devices can serialize data internally without the

microprocessor. When the Stratix or Stratix GX device is ready for the

next byte of configuration data, it drives RDYnBSY high. If the

microprocessor senses a high signal when it polls RDYnBSY, the

microprocessor strobes the next byte of configuration data into the

device. Alternatively, the nRS signal can be strobed, causing the

RDYnBSY signal to appear on DATA7. Because RDYnBSY does not need to

Altera Corporation

July 2005

11â31

Stratix Device Handbook, Volume 2

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