ST7LIT15BF0 STMicroelectronics, ST7LIT15BF0 Datasheet - Page 136

ST7LIT15BF0

Manufacturer Part Number

ST7LIT15BF0

Description

8-BIT MCU WITH SINGLE VOLTAGE FLASH MEMORY, DATA EEPROM, ADC, 5 TIMERS, SPI

Manufacturer

STMicroelectronics

Datasheet

1.ST7LIT10BF0.pdf (159 pages)

Specifications of ST7LIT15BF0

Up To 4 Kbytes Single Voltage Extended Flash (xflash) Program Memory With Read-out Protection, In-circuit Programming And In-application Programming (icp And Iap). 10k Write/erase Cycles Guaranteed, Data Retention

20 years at 55˚C.

128 Bytes Data Eeprom With Read-out Protection. 300k Write/erase Cycles Guaranteed, Data Retention

20 years at 55˚C.

Clock Sources

Internal 1% RC oscillator (on ST7FLITE15B and ST7FLITE19B), crystal/ceramic resonator or external clock

Five Power Saving Modes

Halt, Active-Halt, Auto Wake-up from Halt, Wait and Slow

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ST7LITE1xB

CONTROL PIN CHARACTERISTICS (Cont’d)

Figure 105. RESET pin protection when LVD is enabled.

Figure 106. RESET pin protection when LVD is disabled.

Note 1:

Note 2: When the LVD is enabled, it is recommended not to connect a pull-up resistor or capacitor. A 10nF pull-down

capacitor is required to filter noise on the reset line.

Note 3: In case a capacitive power supply is used, it is recommended to connect a 1MΩ pull-down resistor to the RESET

pin to discharge any residual voltage induced by the capacitive effect of the power supply (this will add 5µA to the power

consumption of the MCU).

Note 4: Tips when using the LVD:

Note 5: Please refer to “Illegal Opcode Reset” on page 107 for more details on illegal opcode reset conditions.

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– The reset network protects the device against parasitic resets.

– The output of the external reset circuit must have an open-drain output to drive the ST7 reset pad. Otherwise the

– Whatever the reset source is (internal or external), the user must ensure that the level on the RESET pin can go

– Because the reset circuit is designed to allow the internal RESET to be output in the RESET pin, the user must en-

– 1. Check that all recommendations related to ICCCLK and reset circuit have been applied (see caution in Table 1

– 2. Check that the power supply is properly decoupled (100nF + 10µF close to the MCU). Refer to AN1709 and

– 3. The capacitors connected on the RESET pin and also the power supply are key to avoid any start-up marginality.

EXTERNAL

device can be damaged when the ST7 generates an internal reset (LVD or watchdog).

below the V

internally.

sure that the current sunk on the RESET pin is less than the absolute maximum value specified for I

section 13.2.2 on page

on page 7 and notes above)

AN2017. If this cannot be done, it is recommended to put a 100nF + 1MΩ pull-down on the RESET pin.

In most cases, steps 1 and 2 above are sufficient for a robust solution. Otherwise: replace 10nF pull-down on the

RESET pin with a 5µF to 20µF capacitor.”

RESET

Required

EXTERNAL

CIRCUIT

RESET

USER

Required

max. level specified in

0.01μF

111.

0.01μF

1MΩ

Optional

(note 3)

section 13.9.1 on page

Filter

135. Otherwise the reset will not be taken into account

GENERATOR

1)2)3)4)

PULSE

GENERATOR

PULSE

WATCHDOG

ILLEGAL OPCODE

LVD RESET

ILLEGAL OPCODE

INTERNAL

RESET

INTERNAL

RESET

INJ(RESET)

ST72XXX

ST7LIT15BF0 STMicroelectronics, ST7LIT15BF0 Datasheet - Page 136

ST7LIT15BF0

Specifications of ST7LIT15BF0

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