MPC8360EVVALFHA Freescale Semiconductor, MPC8360EVVALFHA Datasheet - Page 103
MPC8360EVVALFHA
Manufacturer Part Number
MPC8360EVVALFHA
Description
IC MPU POWERQUICC II PRO 740TBGA
Manufacturer
Freescale Semiconductor
Series
PowerQUICC II PROr
Datasheet
1.MPC8360CZUAJDG.pdf
(108 pages)
Specifications of MPC8360EVVALFHA
Processor Type
MPC83xx PowerQUICC II Pro 32-Bit
Speed
667MHz
Voltage
1.3V
Mounting Type
Surface Mount
Package / Case
740-TBGA
Core Size
32 Bit
Program Memory Size
64KB
Cpu Speed
667MHz
Embedded Interface Type
I2C, SPI, USB, UART
Digital Ic Case Style
TBGA
No. Of Pins
740
Rohs Compliant
Yes
Family Name
MPC83xx
Device Core
PowerQUICC II Pro
Device Core Size
32b
Frequency (max)
667MHz
Instruction Set Architecture
RISC
Supply Voltage 1 (typ)
1.3V
Operating Supply Voltage (max)
1.35V
Operating Supply Voltage (min)
1.25V
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
740
Package Type
TBGA
For Use With
MPC8360EA-MDS-PB - KIT APPLICATION DEV 8360 SYSTEMMPC8360E-RDK - BOARD REFERENCE DESIGN FOR MPC
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Features
-
Lead Free Status / Rohs Status
Compliant
Available stocks
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Company:
Part Number:
MPC8360EVVALFHA
Manufacturer:
Freescale Semiconductor
Quantity:
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Part Number:
MPC8360EVVALFHA
Manufacturer:
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24.1
The device includes two PLLs, as follows.
24.2
Each of the PLLs listed above is provided with power through independent power supply pins (AV
AV
will be derived directly from V
There are a number of ways to reliably provide power to the PLLs, but the recommended solution is to
provide five independent filter circuits as illustrated in
providing independent filters to each PLL, the opportunity to cause noise injection from one PLL to the
other is reduced.
This circuit is intended to filter noise in the PLLs resonant frequency range from a 500 kHz to 10 MHz
range. It should be built with surface mount capacitors with minimum Effective Series Inductance (ESL).
Consistent with the recommendations of Dr. Howard Johnson in High Speed Digital Design: A Handbook
of Black Magic (Prentice Hall, 1993), multiple small capacitors of equal value are recommended over a
single large value capacitor.
Each circuit should be placed as close as possible to the specific AV
noise coupled from nearby circuits. It should be possible to route directly from the capacitors to the AV
pin, which is on the periphery of package, without the inductance of vias.
Figure 56
24.3
Due to large address and data buses as well as high operating frequencies, the device can generate transient
power surges and high frequency noise in its power supply, especially while driving large capacitive loads.
This noise must be prevented from reaching other components in the device system, and the device itself
requires a clean, tightly regulated source of power. Therefore, it is recommended that the system designer
place at least one decoupling capacitor at each V
decoupling capacitors should receive their power from separate V
Freescale Semiconductor
MPC8360E/MPC8358E PowerQUICC II Pro Processor Revision 2.x TBGA Silicon Hardware Specifications, Rev. 4
DD
•
•
2, respectively). The AV
The platform PLL (AV
input. The frequency ratio between the platform and CLKIN is selected using the platform PLL
ratio configuration bits as described in
The e300 core PLL (AV
frequency ratio between the e300 core clock and the platform clock is selected using the e300 PLL
ratio configuration bits as described in
System Clocking
PLL Power Supply Filtering
Decoupling Recommendations
shows the PLL power supply filter circuit.
V
DD
DD
DD
DD
DD
Figure 56. PLL Power Supply Filter Circuit
10 Ω
1) generates the platform clock from the externally supplied CLKIN
level should always be equivalent to V
2) generates the core clock as a slave to the platform clock. The
through a low frequency filter scheme such as the following.
2.2 µF
Section 22.1, “System PLL Configuration.”
Section 22.2, “Core PLL Configuration.”
DD
GND
, OV
Low ESL Surface Mount Capacitors
Figure
DD
2.2 µF
, GV
56, one to each of the five AV
DD
DD
, and LV
DD
AV
, OV
DD
pin being supplied to minimize
DD
n
DD
, and preferably these voltages
DD
, GV
pins of the device. These
DD
System Design Information
, LV
DD
, and GND
DD
pins. By
DD
1,
DD
103
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