MPC8308-RDB Freescale Semiconductor, MPC8308-RDB Datasheet - Page 84

MPC8308-RDB

Manufacturer Part Number

MPC8308-RDB

Description

BOARD REF DESIGN MPC8308

Manufacturer

Freescale Semiconductor

Series

PowerQUICC II™ PROr

Type

MPUr

Datasheets

1.MPC8308VMAGD.pdf (90 pages)

2.MPC8308VMAGD.pdf (2 pages)

3.MPC8308-RDB.pdf (36 pages)

4.MPC8308-RDB.pdf (2 pages)

Specifications of MPC8308-RDB

Contents

Board, Cables, Documentation, Power Supply, Software

Ethernet Connection Type

Serial to Ethernet

Data Rate

10 Mbps, 100 Mbps, 1000 Mbps

Memory Type

DDR2, SDRAM

Interface Type

HSSI

Operating Voltage

1.5 V

Operating Current

5 uA

Maximum Power Dissipation

1000 mW

Operating Temperature Range

- 55 C to + 125 C

Product

Modules

For Use With/related Products

MPC8308

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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System Design Information

These decoupling capacitors should receive their power from separate V

directly under the device using a standard escape pattern. Others may surround the part.

These capacitors should have a value of 0.01 or 0.1 µF. Only ceramic SMT (surface mount technology)

capacitors should be used to minimize lead inductance, preferably 0402 or 0603 sizes.

In addition, it is recommended that there be several bulk storage capacitors distributed around the PCB,

feeding the V

These bulk capacitors should have a low ESR (equivalent series resistance) rating to ensure the quick

response time necessary. They should also be connected to the power and ground planes through two vias

to minimize inductance. Suggested bulk capacitors—100 to 330 µF (AVX TPS tantalum or Sanyo

OSCON). However, customers should work directly with their power regulator vendor for best values and

types of bulk capacitors.

23.4

To ensure reliable operation, it is highly recommended to connect unused inputs to an appropriate signal

level. Unused active low inputs should be tied to NV

inputs should be connected to VSS. All NC (no-connect) signals must remain unconnected.

Power and ground connections must be made to all external V

and V

23.5

The device drivers are characterized over process, voltage, and temperature. For all buses, the driver is a

push-pull single-ended driver type (open drain for I

To measure Z

or V

impedance is the average of two components, the resistances of the pull-up and pull-down devices. When

data is held high, SW1 is closed (SW2 is open), and R

other in value. Then, Z

power planes in the PCB, utilizing short traces to minimize inductance. Capacitors may be placed

/2. R

. Then, the value of each resistor is varied until the pad voltage is NV

pins of the device.

Connection Recommendations

Output Buffer DC Impedance

then becomes the resistance of the pull-up devices. R

for the single-ended drivers, an external resistor is connected from the chip pad to NV

, NV

MPC8308 PowerQUICC II Pro Processor Hardware Specification, Rev. 2

, GV

= (R

+ R

, LV

)/2.

planes, to enable quick recharging of the smaller chip capacitors.

C, MDIO and HRESET)

, GV

is trimmed until the voltage at the pad equals

, LV

, NV

and R

as required. Unused active high

, AV

are designed to be close to each

, NV

DD1

, AV

(Figure

, GV

Freescale Semiconductor

DD2

55). The output

, GV

, LV

, and

MPC8308-RDB Freescale Semiconductor, MPC8308-RDB Datasheet - Page 84

MPC8308-RDB

Specifications of MPC8308-RDB

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