MK30DN512ZVLK10 Freescale Semiconductor, MK30DN512ZVLK10 Datasheet - Page 393
MK30DN512ZVLK10
Manufacturer Part Number
MK30DN512ZVLK10
Description
ARM Microcontrollers - MCU KINETIS 512K SLCD
Manufacturer
Freescale Semiconductor
Datasheet
1.MK30DN512ZVLK10.pdf
(1547 pages)
Specifications of MK30DN512ZVLK10
Core
ARM Cortex M4
Processor Series
K30
Data Bus Width
32 bit
Maximum Clock Frequency
50 MHz
Program Memory Size
512 KB
Data Ram Size
128 KB
On-chip Adc
Yes
Operating Supply Voltage
1.71 V to 3.6 V
Operating Temperature Range
- 40 C to + 105 C
Package / Case
LQFP-80
Mounting Style
SMD/SMT
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Once the DMA request has been serviced, the peripheral will negate its request,
effectively resetting the gating mechanism until the peripheral re-asserts its request AND
the next trigger event is seen. This means that if a trigger is seen, but the peripheral is not
requesting a transfer, that triggered will be ignored. This situation is illustrated in the
following figure.
This triggering capability may be used with any peripheral that supports DMA transfers,
and is most useful for two types of situations:
A more detailed description of the capability of each trigger (which includes resolution,
range of values, etc.) may be found in the Periodic Interrupt Timer chapter.
Freescale Semiconductor, Inc.
• Periodically polling external devices on a particular bus. As an example, the transmit
• Using the GPIO ports to drive or sample waveforms. By configuring the DMA to
side of an SPI is assigned to a DMA channel with a trigger, as described above. Once
setup, the SPI will request DMA transfers (presumably from memory) as long as its
transmit buffer is empty. By using a trigger on this channel, the SPI transfers can be
automatically performed every 5μs (as an example). On the receive side of the SPI,
the SPI and DMA can be configured to transfer receive data into memory, effectively
implementing a method to periodically read data from external devices and transfer
the results into memory without processor intervention.
transfer data to one or more GPIO ports, it is possible to create complex waveforms
using tabular data stored in on-chip memory. Conversely, using the DMA to
periodically transfer data from one or more GPIO ports, it is possible to sample
complex waveforms and store the results in tabular form in on-chip memory.
Peripheral Request
Peripheral Request
DMA Request
DMA Request
Trigger
Figure 20-20. DMA MUX channel triggering: normal operation
Trigger
Figure 20-21. DMA MUX channel triggering: ignored trigger
K30 Sub-Family Reference Manual, Rev. 6, Nov 2011
Chapter 20 Direct memory access multiplexer (DMAMUX)
393
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