ST72334N4 STMicroelectronics, ST72334N4 Datasheet - Page 108

ST72334N4

Manufacturer Part Number

ST72334N4

Description

8-BIT MCU WITH SINGLE VOLTAGE FLASH MEMORY,ADC, 16-BIT TIMERS, SPI, SCI INTERFACES

Manufacturer

STMicroelectronics

Datasheet

1.ST72124J2.pdf (153 pages)

Specifications of ST72334N4

Clock Sources

crystal/ceramic resonator oscillators or RC oscillators, external clock, backup Clock Security System

4 Power Saving Modes

Halt, Active-Halt, Wait and Slow

Two 16-bit Timers With

2 input captures (only one on timer A), 2 output compares (only one on timer A), External clock input on timer A, PWM and Pulse generator modes

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ST72334J/N, ST72314J/N, ST72124J

16.2 ABSOLUTE MAXIMUM RATINGS

Stresses above those listed as “absolute maxi-

mum ratings” may cause permanent damage to

the device. This is a stress rating only and func-

tional operation of the device under these condi-

16.2.1 Voltage Characteristics

16.2.2 Current Characteristics

Notes:

1. Directly connecting the RESET and I/O pins to V

is generated or an unexpected change of the I/O configuration occurs (for example, due to a corrupted program counter).

To guarantee safe operation, this connection has to be done through a pull-up or pull-down resistor (typical: 4.7k

RESET, 10k for I/Os). Unused I/O pins must be tied in the same way to V

2. When the current limitation is not possible, the V

3. All power (V

4. Negative injection disturbs the analog performance of the device. In particular, it induces leakage currents throughout

the device including the analog inputs. To avoid undesirable effects on the analog functions, care must be taken:

- Analog input pins must have a negative injection less than 0.8 mA (assuming that the impedance of the analog voltage

is lower than the specified limits)

- Pure digital pins must have a negative injection less than 1.6mA. In addition, it is recommended to inject the current as

far as possible from the analog input pins.

5. When several inputs are submitted to a current injection, the maximum I

and negative injected currents (instantaneous values). These results are based on characterisation with I

mum current injection on four I/O port pins of the device.

6. True open drain I/O port pins do not accept positive injection.

108/153

INJ(PIN)

| V

DDx

INJ(PIN)

DDA

DDX

SSA

specification. A positive injection is induced by V

Symbol

ESD(HBM)

INJ(PIN)

ESD(MM)

| and | V

VDD

VSS

1) & 2)

- V

2) & 4)

DDA

SSA

SSx

) and ground (V

SSx

Supply voltage

Analog Reference Voltage

Input voltage on true open drain pin

Input voltage on any other pin

Variations between different digital power pins

Variations between digital and analog power pins

Electro-static discharge voltage (Human Body Model)

Electro-static discharge voltage (Machine Model)

Total current into V

Total current out of V

Output current sunk by any standard I/O and control pin

Output current sunk by any high sink I/O pin

Output current source by any I/Os and control pin

Injected current on ISPSEL pin

Injected current on RESET pin

Injected current on OSC1 and OSC2 pins

Injected current on any other pin

Total injected current (sum of all I/O and control pins)

) lines must always be connected to the external supply.

power lines (source)

Ratings

ground lines (sink)

or V

absolute maximum rating must be respected, otherwise refer to

5) & 6)

could damage the device if an unintentional internal reset

tions is not implied. Exposure to maximum rating

conditions for extended periods may affect device

reliability.

while a negative injection is induced by V

or V

INJ(PIN)

according to their reset configuration.

see

cal Sensitivity" on page 124

is the absolute sum of the positive

Maximum value

Section 16.7.2 "Absolute Electri-

-0.3 to V

-0.3 to 6.5

± 20

150

- 25

6.5

± 5

+0.3

INJ(PIN)

Unit

maxi-

for

ST72334N4 STMicroelectronics, ST72334N4 Datasheet - Page 108

ST72334N4

Specifications of ST72334N4

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