Datasheet

ManualsBrandsNXP SEMICONDUCTORS ManualsMicrocontrollers, Microprocessors & QuartzesEmbedded microcontroller LQFP 32 (7x7) 8-Bit 8 MHz I/O number 21

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Electrical Specifications

MC68HC908GZ16 • MC68HC908GZ8 Data Sheet, Rev. 4

292 Freescale Semiconductor

Monitor mode entry voltage

TST

+ 2.5

—

+ 4.0

Low-voltage inhibit, trip falling voltage

TRIPF

2.35 2.6 2.7 V

Low-voltage inhibit, trip rising voltage

TRIPR

2.4 2.66 2.8 V

Low-voltage inhibit reset/recover hysteresis

TRIPF

+ V

HYS

= V

TRIPR

)

HYS

—100 —mV

POR rearm voltage

(12)

POR

0 — 100 mV

POR reset voltage

(13)

PORRST

0 700 800 mV

POR rise time ramp rate

(14)

POR

0.035 — — V/ms

1. V

= 3.3 Vdc ± 10%, V

= 0 Vdc, T

= T

(min) to T

(max), unless otherwise noted

2. Typical values reflect average measurements at midpoint of voltage range, 25°C only.

3. Run (operating) I

measured using external square wave clock source (f

OSC

= 16 MHz). All inputs 0.2 V from rail. No dc

loads. Less than 100 pF on all outputs. C

= 20 pF on OSC2. All ports configured as inputs. OSC2 capacitance linearly

affects run I

. Measured with all modules enabled.

4. Wait I

measured using external square wave clock source (f

OSC

= 16 MHz). All inputs 0.2 V from rail. No dc loads. Less

than 100 pF on all outputs. C

= 20 pF on OSC2. All ports configured as inputs. OSC2 capacitance linearly affects wait

. Measured with CGM and LVI enabled.

5. Stop I

is measured with OSC1 = V

. All inputs 0.2 V from rail. No dc loads. Less than 100 pF on all outputs. All ports

configured as inputs. Typical values at midpoint of voltage range, 25°C only.

6. Stop I

with TBM enabled is measured using an external square wave clock source (f

OSC

= 4 MHz). All inputs 0.2 V from

rail. No dc loads. Less than 100 pF on all outputs. All inputs configured as inputs.

7. This parameter is characterized and not tested on each device.

8. All functional non-supply pins are internally clamped to V

and V

9. Input must be current limited to the value specified. To determine the value of the required current-limiting resistor,

calculate resistance values for positive and negative clamp voltages, then use the larger of the two values.

10. Power supply must maintain regulation within operating V

range during instantaneous and operating maximum current

conditions. If positive injection current (V

> V

) is greater than I

, the injection current may flow out of V

and could

result in external power supply going out of regulation. Ensure external V

load will shunt current greater than maximum

injection current. This will be the greatest risk when the MCU is not consuming power. Examples are: if no system clock

is present, or if clock rate is very low (which would reduce overall power consumption).

11. Pullups and pulldowns are disabled.

12. Maximum is highest voltage that POR is guaranteed.

13. Maximum is highest voltage that POR is possible.

14. If minimum V

is not reached before the internal POR reset is released, RST must be driven low ext ernally until

minimum V

is reached.

Characteristic

(1)

Symbol Min

Typ

(2)

Max Unit