MPC561MZP56 Freescale, MPC561MZP56 Datasheet - Page 615
MPC561MZP56
Manufacturer Part Number
MPC561MZP56
Description
Manufacturer
Freescale
Datasheet
1.MPC561MZP56.pdf
(1420 pages)
Specifications of MPC561MZP56
Cpu Family
MPC56x
Device Core
PowerPC
Device Core Size
32b
Frequency (max)
56MHz
Interface Type
QSPI/SCI/SPI/UART
Total Internal Ram Size
32KB
# I/os (max)
56
Number Of Timers - General Purpose
22
Operating Supply Voltage (typ)
2.6/5V
Operating Supply Voltage (max)
2.7/5.25V
Operating Supply Voltage (min)
2.5/4.75V
On-chip Adc
2(32-chx10-bit)
Instruction Set Architecture
RISC
Operating Temp Range
-40C to 125C
Operating Temperature Classification
Automotive
Mounting
Surface Mount
Pin Count
388
Package Type
BGA
Program Memory Type
ROMLess
Program Memory Size
Not Required
Lead Free Status / RoHS Status
Not Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MPC561MZP56
Manufacturer:
Freescale Semiconductor
Quantity:
10 000
Company:
Part Number:
MPC561MZP56R2
Manufacturer:
Freescale Semiconductor
Quantity:
10 000
14.6.5.2
The values for R
C
disconnecting the internal circuitry from the external circuitry. Assume that the initial voltage across C
zero. As C
charge time:
As t approaches infinity, V
1/2 of a count is equal to 1/2048 full-scale value. Assuming worst case (V
shows the required time for C
conversions.
The external circuit described in
component of the external signal must take the characteristics of this filter into account.
14.6.5.3
A series resistor limits the current to a signal, therefore input leakage acting through a large source
impedance can degrade A/D accuracy. The maximum input leakage current is specified in
“Electrical
range from 125° C to 50° C, the leakage current is halved for every 8 – 12° C reduction in temperature.
Assuming V
voltage. A typical input leakage of 200 nA acting through 10 kΩ of external series resistance results in an
error of 0.4 count (2.0 mV). If the source impedance is 100 kΩ and a typical leakage of 100 nA is present,
an error of two counts (10 mV) is introduced.
In addition to internal junction leakage, external leakage (e.g., if external clamping diodes are used) and
charge sharing effects with internal capacitors also contribute to the total leakage current.
illustrates the effect of different levels of total leakage on accuracy for different values of source
impedance. The error is listed in terms of 10-bit counts.
Freescale Semiconductor
F
to the source voltage level (V
F
Characteristics.” Input leakage is greater at higher operating temperatures. In the temperature
charges, the voltage across it is determined by the following equation, where t is the total
RH
Table 14-25
Filter Capacitor
Settling Time for the External Circuit
Error Resulting from Leakage
The following times are completely independent of the A/D converter
architecture (assuming the QADC64E is not affecting the charging).
– V
Table 14-25. External Circuit Settling Time to 1/2 LSB (10-Bit Conversions)
SRC
.001 µF
100 pF
.01 µF
.1 µF
(CF)
1 µF
RL
, R
= 5.12 V, one count (assuming 10-bit resolution) corresponds to 5 mV of input
F
and C
is based on the RC network in
CF
will equal V
F
to charge to within 1/2 of a count of the actual source voltage during 10-bit
F
in the external circuitry determine the length of time required to charge
SRC
MPC561/MPC563 Reference Manual, Rev. 1.2
Table 14-25
760 µs
760 ns
7.6 µs
100 Ω
76 µs
76 ns
). At time t = 0, V
SRC
. (This assumes no internal leakage.) With 10-bit resolution,
is a low-pass filter. A user interested in measuring an AC
Source Resistance (R
NOTE
7.6 ms
760 µs
760 ns
7.6 µs
76 µs
1 kΩ
SRC
Figure
changes in
14-50.
7.6 ms
760 µs
F
10 kΩ
76 ms
7.6 µs
76 µs
+ R
Figure 14-50
SRC
)
SRC
QADC64E Enhanced Mode Operation
= full scale),
100 kΩ
760 ms
7.6 ms
760 µs
76 ms
76 µs
while S1 is open,
Table 14-26
Appendix F,
Table 14-25
14-73
F
is
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