STR910FM32X6T STMICROELECTRONICS [STMicroelectronics], STR910FM32X6T Datasheet - Page 20

STR910FM32X6T

Manufacturer Part Number

STR910FM32X6T

Description

ARM966E-S 16/32-Bit Flash MCU with Ethernet, USB, CAN, AC Motor Control, 4 Timers, ADC, RTC, DMA

Manufacturer

STMICROELECTRONICS [STMicroelectronics]

Datasheet

1.STR910FM32X6T.pdf (72 pages)

Current page: 20 of 72
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Functional overview

2.13.4 External RESET_INn pin

2.13.5 Power-up

2.13.6 JTAG debug command

2.13.7 Tamper detection

2.14

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peripheral clock from the APB, and an 8-bit clock pre-scaler is available. When enabled by

firmware as a watchdog, this timer will cause a system reset if firmware fails to periodically

reload this timer before the terminal count of 0x0000 occurs, ensuring firmware sanity. The

watchdog function is off by default after a reset and must be enabled by firmware.

This input signal is active-low with hystereses (V

reset signals on the circuit board (such as closure to ground from a push-button) may be

connected directly to the RESET_INn pin, but an external pull-up resistor to V

present as there is no internal pullup on the RESET_INn pin.

A valid active-low input signal of t

reset within the STR91xF. There is also a RESET_OUTn pin on the STR91xF that can drive

other system components on the circuit board. RESET_OUTn is active-low and has the same

timing of the Power-On-Reset (POR) shown next, t

The LVD circuitry will always generate a global reset when the STR91xF powers up, meaning

internal reset is active until V

condition has a duration of t

0x0000.0000.

When the STR91xF is in JTAG debug mode, an external device which controls the JTAG

interface can command a system reset to the STR91xF over the JTAG channel.

On 128-pin STR91xF devices only, there is a tamper detect input pin, TAMPER_IN, used to

detect and record the time of a tamper event on the end product such as malicious opening of

an enclosure, unwanted opening of a panel, etc. The activation mode of the tamper pin is

programmable to one of two modes. One is Normally Closed/Tamper Open, the other mode will

detect when a signal on the tamper input pin is driven from low-to-high, or high-to-low

depending on firmware configuration. Once a tamper event occurs, the RTC time (millisecond

resolution) and the date are recorded in the RTC unit. Simultaneously, the SRAM standby

voltage source will be cut off to invalidate all SRAM contents. Tamper detection control and

status logic are part of the RTC unit.

Real-time clock (RTC)

The RTC combines the functions of a complete time-of-day clock (millisecond resolution) with

an alarm programmable up to one month, a 9999-year calender with leap-year support,

periodic interrupt generation from 1 to 512 Hz, tamper detection (described in

and an optional clock calibration output on the JRTCK pin. The time is in 24 hour mode, and

time/calendar values are stored in binary-coded decimal format.

The RTC also provides a self-isolation mode that is automatically activated during power down.

This feature allows the RTC to continue operation when V

an alternate power source, such as a battery, is connected to the VBATT input pin. The current

POR

DDQ

, after which the CPU will fetch its first instruction from address

RINMIN

and V

duration on the RESET_INn pin will cause a system

are both above the LVD thresholds. This POR

RHYS

POR

). Other open-drain, active-low system

DDQ

and V

are absent, as long as

DDQ

Section

must be

STR91xF

2.13.7),

STR910FM32X6T STMICROELECTRONICS [STMicroelectronics], STR910FM32X6T Datasheet - Page 20

STR910FM32X6T

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