PPC440EPX-SUA667T Applied Micro Circuits Corporation, PPC440EPX-SUA667T Datasheet - Page 87

PPC440EPX-SUA667T

Manufacturer Part Number

PPC440EPX-SUA667T

Description

Manufacturer

Applied Micro Circuits Corporation

Datasheet

1.PPC440EPX-SUA667T.pdf (93 pages)

Specifications of PPC440EPX-SUA667T

Family Name

440EPx

Device Core

PowerPC

Device Core Size

32b

Frequency (max)

667MHz

Instruction Set Architecture

RISC

Supply Voltage 1 (typ)

1.5/3.3V

Operating Supply Voltage (max)

1.6/3.45V

Operating Supply Voltage (min)

1.425/3.15V

Operating Temp Range

-40C to 100C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

680

Package Type

TEBGA

Lead Free Status / RoHS Status

Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

PPC440EPX-SUA667T

Manufacturer:

FUJITSU

Quantity:

143

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Revision 1.30 – February 27, 2009

Table 26. I/O Timing—DDR SDRAM T

Notes:

1. Clock speed is 166MHz. T

2. The timing in this table assumes a single registered DIMM load on the outputs. To adjust the timing for unbuffered DIMMs,

3. To obtain adjusted T

4. To obtain adjusted T

Table 27. I/O Timing—DDR SDRAM T

Notes:

1. T

2. Clock speed for the values in the table is 166MHz.

3. The time values in the table include 1/4 of a cycle at 166MHz (6ns x 0.25 = 1.5 ns).

4. To obtain adjusted T

DDR SDRAM Read Operation

The read data capture logic is responsible for capturing the data outputs from the SDRAM devices and passing the

data back to the system clock domain. The data strobe signal (DQS) signals used to capture data are delayed to

ensure that the rising and falling edges of these strobes are in the middle of the valid window of data.

DDR devices send a DQS coincident with the read data so that the data can be reliably captured by the

PPC440EPx. The edges of these strobe signals are aligned with the data output by the SDRAM devices.

In order to reliably latch the data into a synchronizing FIFO, the PPC440EPx produces an internal, delayed version

of DQS. The amount of delay is user programmable. In the example shown in Figure 11, the delay is set to

approximately 25% of the system clock. A delay compensation circuit in the PPC440EPx keeps this delay

AMCC Proprietary

MemAddr00:13

BA0:2

BankSel0:1

ClkEn

CAS

RAS

MemData00:07, DM0

MemData08:15, DM1

MemData16:23, DM2

MemData24:31, DM3

MemData32:39, DM4

MemData40:47, DM5

MemData48:55, DM6

MemData56:63, DM7

ECC0:7, DM8

Data Sheet

edge.

use the following values by subtracting them from T

18 loads adjust by 2.12ns

of the cycle time for the lower clock frequency (for example, T

9 loads adjust by 1.12ns

5 loads adjust by 0.41ns

maximum (0.5T

minimum (0.5T

and T

Signal Names

Signal Name

are measured under worst case conditions.

CYC

values for lower clock frequencies, use 1/2 of the cycle time for the lower clock frequency and subtract

values for lower clock frequencies, use 1/2 of the cycle time for the lower clock frequency and add

and T

+ T

− T

is referenced to MemClkOut falling edge. T

min).

max).

values for lower clock frequencies, subtract 1.5 ns from the values in the table and add 1/4

Reference Signal

DQS0

DQS1

DQS2

DQS3

DQS4

DQS5

DQS6

DQS7

DQS8

, T

and T

Minimum

-0.960

, and T

and adding them to T

(ns)

440EPx – PPC440EPx Embedded Processor

− 1.5 + 0.25T

Maximum

-0.270

1.37

1.41

1.40

1.41

1.45

1.40

1.46

1.45

1.46

and T

(ns)

CYC

and T

are referenced to MemClkOut rising

Minimum

3.27

(ns)

1.23

1.18

1.17

1.20

1.18

1.17

1.10

1.18

(ns)

Minimum

2.04

(ns)

PPC440EPX-SUA667T Applied Micro Circuits Corporation, PPC440EPX-SUA667T Datasheet - Page 87

PPC440EPX-SUA667T

Specifications of PPC440EPX-SUA667T

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