MPC8315E-RDBA Freescale Semiconductor, MPC8315E-RDBA Datasheet - Page 108
MPC8315E-RDBA
Manufacturer Part Number
MPC8315E-RDBA
Description
BOARD MPU 8315 POWERQUICC II
Manufacturer
Freescale Semiconductor
Series
PowerQUICC II™ PROr
Type
MPUr
Datasheet
1.MPC8315VRADDA.pdf
(112 pages)
Specifications of MPC8315E-RDBA
Contents
Board
Processor To Be Evaluated
MPC8315E
Data Bus Width
32 bit
Interface Type
Ethernet, I2C, SPI, UART
Operating Supply Voltage
1.8 V
For Use With/related Products
MPC8315E
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
System Design Information
26.4
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 NVDD, GVDD, or LVDD as required. Unused active
high inputs should be connected to GND. All NC (no-connect) signals must remain unconnected.
Power and ground connections must be made to all external VDD, GVDD, LVDD, NVDD, and GND pins
of the device.
26.5
The MPC8315E 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 GND. Then, the value of each resistor is varied until the pad voltage is NVDD/2 (see
output 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
NVDD/2. R
each other in value. Then, Z
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
Table 80
nominal NVDD, 105°C.
108
term
× (V
summarizes the signal impedance targets. The driver impedance are targeted at minimum VDD,
Connection Recommendations
Output Buffer DC Impedance
1
/V
P
0
then becomes the resistance of the pull-up devices. R
2
for the single-ended drivers, an external resistor is connected from the chip pad to NVDD
– 1). The drive current is then I
MPC8315E PowerQUICC
2
= (1/(1/R
0
= (R
Figure 64. Driver Impedance Measurement
1
Data
P
+ 1/R
+ R
N
2
™
)/2.
)) × I
II Pro Processor Hardware Specifications, Rev. 0
1
source
source
= R
source
. Solving for the output impedance gives R
= V
2
C).
1
× I
/R
Pad
P
R
source
R
source
is trimmed until the voltage at the pad equals
NVDD
OGND
N
P
. Second, the output voltage is measured
.
P
SW2
SW1
and R
N
are designed to be close to
Freescale Semiconductor
Figure
term
. The
source
64). The
=
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