ST10F272M-4T3 STMicroelectronics, ST10F272M-4T3 Datasheet - Page 78
ST10F272M-4T3
Manufacturer Part Number
ST10F272M-4T3
Description
MCU 16BIT 256K FLASH 144-LQFP
Manufacturer
STMicroelectronics
Series
ST10r
Datasheet
1.ST10F272M-4TR3.pdf
(176 pages)
Specifications of ST10F272M-4T3
Core Processor
ST10
Core Size
16-Bit
Speed
40MHz
Connectivity
ASC, CAN, EBI/EMI, I²C, SSC, UART/USART
Peripherals
POR, PWM, WDT
Number Of I /o
111
Program Memory Size
256KB (256K x 8)
Program Memory Type
FLASH
Ram Size
20K x 8
Voltage - Supply (vcc/vdd)
4.5 V ~ 5.5 V
Data Converters
A/D 24x10b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 125°C
Package / Case
144-MQFP, 144-PQFP
Processor Series
ST10F27x
Core
ST10
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Eeprom Size
-
Lead Free Status / Rohs Status
Details
Available stocks
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Part Number
Manufacturer
Quantity
Price
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Part Number:
ST10F272M-4T3
Manufacturer:
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10 000
System reset
20.2
Note:
Note:
78/176
Asynchronous reset
An asynchronous reset is triggered when RSTIN pin is pulled low while RPD pin is at low
level. Then the ST10F272M is immediately (after the input filter delay) forced in reset default
state. It pulls low RSTOUT pin, it cancels pending internal hold states if any, it aborts all
internal/external bus cycles, it switches buses (data, address and control signals) and I/O
pin drivers to high-impedance, it pulls high port0 pins.
If an asynchronous reset occurs during a read or write phase in internal memories, the
content of the memory itself could be corrupted: to avoid this, synchronous reset usage is
strongly recommended.
Power-on reset
The asynchronous reset must be used during the power-on of the device. Depending on
crystal or resonator frequency, the on-chip oscillator needs about 1ms to 10 ms to stabilize
(refer to
ST10F272M does not need a stabilized clock signal to detect an asynchronous reset, so it is
suitable for power-on conditions. To ensure a proper reset sequence, the RSTIN pin and the
RPD pin must be held at low level until the device clock signal is stabilized and the system
configuration value on port0 is settled.
At power-on it is important to respect some additional constraints introduced by the start-up
phase of the different embedded modules.
In particular, the on-chip voltage regulator needs at least 1ms to stabilize the internal 1.8 V
for the core logic: This time is computed from when the external reference (V
stable (inside specification range, that is, at least 4.5 V). This is a constraint for the
application hardware (external voltage regulator): The RSTIN pin assertion has to be
extended to guarantee the voltage regulator stabilization.
A second constraint is imposed by the embedded Flash. When booting from internal
memory, starting from RSTIN releasing, it needs a maximum of 1ms for its initialization:
before that, the internal reset (RST signal) is not released, so the CPU does not start code
execution in internal memory.
This is not true if external memory is used (pin EA held low during reset phase). In this case,
once the RSTIN pin is released, and after a few CPU clock cycles (Filter delay plus 3...8
TCL), the internal reset signal RST is released as well, so the code execution can start
immediately after. Obviously, an eventual access to the data in internal Flash is forbidden
before its initialization phase is completed: An eventual access during starting phase will
return FFFFh (just at the beginning), while later 009Bh (an illegal opcode trap can be
generated).
At power-on, the RSTIN pin must be tied low for a minimum time that also includes the start-
up time of the main oscillator (t
synchronization time (t
pin could be released before the main oscillator and PLL are stable to recover some time in
the start-up phase (Flash initialization only needs stable V
system clock since an internal dedicated oscillator is used).
Section 24: Electrical
PSUP
= 200 µs): This means if the internal Flash is used, the RSTIN
characteristics), with an already stable V
STUP
= 1ms for resonator, 10ms for crystal) and PLL
18
, but does not need stable
DD
. The logic of the
DD
ST10F272M
) becomes
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