MPC561MZP56 Freescale, MPC561MZP56 Datasheet - Page 504
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
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QADC64E Legacy Mode Operation
last sub-queue (after the queue completion flag is set), causes the execution to continue with the first
sub-queue, starting with the first CCW in the queue.
When the QADC64E encounters a CCW with the pause bit set, the queue enters the paused state after
completing the conversion specified in the CCW with the pause bit. The pause flag is set and a pause
software interrupt may optionally be issued. The status of the queue is shown to be paused, indicating
completion of a sub-queue. The QADC64E then waits for another trigger event to again begin execution
of the next sub-queue.
13.5.3
The following are queue operation boundary conditions:
Boundary conditions also exist for combinations of pause and end-of-queue. One case is when a pause bit
is in one CCW and an end-of-queue condition is in the next CCW. The conversion specified by the CCW
with the pause bit set completes normally. The pause flag is set. However, since the end-of-queue condition
is recognized, the completion flag is also set and the queue status becomes idle, not paused. Examples of
this situation include:
Another pause and end-of-queue boundary condition occurs when the pause and an end-of-queue
condition occur in the same CCW. Both the pause and end-of-queue conditions are recognized
simultaneously. The end-of-queue condition has precedence so a conversion is not performed for the CCW
13-40
•
•
•
•
•
•
•
The first CCW in a queue contains channel 63, the end-of-queue (EOQ) code. The queue becomes
active and the first CCW is read. The end-of-queue is recognized, the completion flag is set, and
the queue becomes idle. A conversion is not performed.
BQ2 (beginning of queue 2) is set at the end of the CCW table (63) and a trigger event occurs on
queue 2. Refer to
The end-of-queue condition is recognized, a conversion is performed, the completion flag is set,
and the queue becomes idle.
BQ2 is set to CCW0 and a trigger event occurs on queue 1. After reading CCW0, the end-of-queue
condition is recognized, the completion flag is set, and the queue becomes idle. A conversion is not
performed.
BQ2 is set beyond the end of the CCW table (64 – 127) and a trigger event occurs on queue 2. The
end-of-queue condition is recognized immediately, the completion flag is set, and the queue
becomes idle. A conversion is not performed.
The pause bit is set in CCW5 and the EOQ code is in CCW6
The pause is set in CCW63
During queue 1 operation, the pause bit is set in CCW20 and BQ2 points to CCW21
Boundary Conditions
Multiple end-of-queue conditions may be recognized simultaneously,
although there is no change in the QADC64E behavior. For example, if BQ2
is set to CCW0, CCW0 contains the EOQ code, and a trigger event occurs
on queue 1, the QADC64E reads CCW0 and detects both end-of-queue
conditions. The completion flag is set and queue 1 becomes idle.
Section 13.3.7, “Control Register 2
MPC561/MPC563 Reference Manual, Rev. 1.2
NOTE
(QACR2),” for more information on BQ2.
Freescale Semiconductor
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