DSM2190F4 查看數據表(PDF) - STMicroelectronics
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DSM2190F4
STMicroelectronics
DSM2190F4 Datasheet PDF : 61 Pages
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Figure 5. Block Diagram
DSM2190F4
SECURITY
LOCK
DSP
ADDR
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
PD0
PD1
PD2
INTERNAL ADDR, DATA, CONTROL BUS LINKED TO DSP
PAGE REG
MAIN FLASH MEMORY
fs7
DECODE PLD
(DPLD)
FS0-7
fs0
8 SEGMENTS, 32 KB
256 KBytes TOTAL
CSBOOT0-3
2nd FLASH MEMORY
csboot3
csboot0
4 SEGMENTS, 8 KB
32 KBytes TOTAL
CSIOP
RUNTIME CONTROL
CSIOP REGISTER FILE
POWER MANAGEMENT
EXTERNAL
CHIP SELECTS EXTERNAL CHIP SELECTS, ESC0-2
COMPLEX PLD
(CPLD)
AND
ARRAY
A AA AA AAA
B BB BB BBB
B BBBB BBB
C CCC C CCC
16 Output Macrocells
ALLO-
CATOR
DSM2190F4
DSP SYSTEM
MEMORY
DSP
DATA
PA0
PA1
PA2
PA3
PA4
PA5
PA6
PA7
I/O PORT
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
DSP
CONTROL
CNTL0
CNTL1
CNTL2
PC2
RST\
BBB BBB BB
CCC CC C CC
16 Input
Macrocell
PIN FEEDBACK
NODE FEEDBACK
JTAG-ISP
TO ALL AREAS
OF CHIP
I/O PORT
PC0
PC1
PC3
PC4
PC5
PC6
PC7
AI04960B
OMCs: The general structure of the CPLD is simi-
lar in nature to a 22V10 PLD device with the famil-
iar sum-of-products (AND-OR) construct. True
and compliment versions of 64 input signals are
available to a large AND array. AND array outputs
feed into a multiple product-term OR gate within
each OMC (up to 10 product-terms for each
OMC). Logic output of the OR gate can be passed
on as combinatorial logic or combined with a flip-
flop within in each OMC to realize sequential logic.
OMCs can be used as a buried nodes with feed-
back to the AND array or OMC output can be rout-
ed to pins on Port B or PortC.
IMCs: Inputs from pins on Port B or Port C are
routed to IMCs for conditioning (clocking or latch-
ing) as they enter the chip, which is good for sam-
pling and debouncing inputs. Alternatively, IMCs
can pass Port input signals directly to PLD inputs
without clocking or latching. The DSP may read
the IMCs at any time.
Runtime Control Registers
A block of 256 bytes is decoded inside the DSM
device as DSM control and status registers. 27
registers are used in the block of 256 locations to
control the output state of I/O pins, to read I/O
pins, to control power management, to read/write
macrocells, and other functions at runtime. See
Table 4 for description. The base address of these
256 locations is referred to in this data sheet as
csiop (Chip Select I/O Port). Individual registers
within this block are accessed with an offset from
the base address. The DSP accesses csiop regis-
ters using I/O memory with the IOMS strobe. csiop
registers are accessed as bytes.
Memory Page Register
This 8-bit register can be loaded and read by the
DSP at runtime as one of the csiop registers. Its
outputs feed directly into the PLDs. The page reg-
ister can be used for special memory mapping re-
quirements and also for general logic.
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