MPC8308CZQADDA Freescale Semiconductor, MPC8308CZQADDA Datasheet - Page 79
MPC8308CZQADDA
Manufacturer Part Number
MPC8308CZQADDA
Description
Microprocessors - MPU E300 ext tmp Qual266
Manufacturer
Freescale Semiconductor
Datasheet
1.MPC8308VMAGDA.pdf
(83 pages)
Specifications of MPC8308CZQADDA
Processor Series
MPC8308
Core
e300
Maximum Clock Frequency
266 MHz
Interface Type
I2C, JTAG, UART
Operating Supply Voltage
0.95 V to 1.05 V
Maximum Operating Temperature
- 40 C to + 105 C
Mounting Style
SMD/SMT
Package / Case
MAPBGA-474
The value of this resistance and the strength of the driver’s current source can be found by making two
measurements. First, the output voltage is measured while driving logic 1 without an external differential
termination resistor. The measured voltage is V
while driving logic 1 with an external precision differential termination resistor of value R
measured voltage is V
R
This table summarizes the signal impedance targets. The driver impedance are targeted at minimum V
nominal NV
23.6
The device provides the user with power-on configuration options which can be set through the use of
external pull-up or pull-down resistors of 4.7 K on certain output pins (see customer visible
configuration pins). These pins are generally used as output only pins in normal operation.
While PORESET is asserted however, these pins are treated as inputs. The value presented on these pins
while PORESET is asserted, is latched when PORESET deasserts, at which time the input receiver is
disabled and the I/O circuit takes on its normal function. Careful board layout with stubless connections
to these pull-up/pull-down resistors coupled with the large value of the pull-up/pull-down resistor should
minimize the disruption of signal quality or speed for output pins thus configured.
Freescale Semiconductor
term
(V
Note: Nominal supply voltages. See
Configuration Pin Muxing
Impedance
1
/V
DD
2
R
R
, 105C.
N
P
– 1). The drive current is then I
MPC8308 PowerQUICC II Pro Processor Hardware Specification, Rev. 3
2
= (1/(1/R
Local Bus, Ethernet, DUART, Control,
Configuration, Power Management
Figure 55. Driver Impedance Measurement
Data
1
+ 1/R
Table 60. Impedance Characteristics
Table
2
42 Target
42 Target
)) I
2, T
1
source
source
= R
j
= 105C.
source
. Solving for the output impedance gives R
= V
1
I
/R
Pad
R
source
R
source
NV
N
P
VSS
DD
. Second, the output voltage is measured
.
SW2
SW1
DDR DRAM
20 Target
20 Target
Symbol
Z
Z
System Design Information
0
0
term
Unit
. The
source
=
DD
79
,
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