K30P64M72SF1 Datasheet, PDF(11/68 Page) Freescale Semiconductor, Inc

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K30P64M72SF1 Datasheet, PDF (11/68 Pages) Freescale Semiconductor, Inc – K30 Sub-Family

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5.2.1 Voltage and current operating requirements

Table 1. Voltage and current operating requirements

Symbol Description

VDD

Supply voltage

VDDA

Analog supply voltage

VDD â VDDA VDD-to-VDDA differential voltage

VSS â VSSA VSS-to-VSSA differential voltage

VBAT

RTC battery supply voltage

VIH

Input high voltage

â¢ 2.7 V â¤ VDD â¤ 3.6 V

â¢ 1.7 V â¤ VDD â¤ 2.7 V

Min.

Max.

Unit

1.71

3.6

1.71

3.6

â0.1

0.1

â0.1

0.1

1.71

3.6

0.7 Ã VDD

0.75 Ã VDD

General

Notes

VIL

Input low voltage

â¢ 2.7 V â¤ VDD â¤ 3.6 V

â¢ 1.7 V â¤ VDD â¤ 2.7 V

0.35 Ã VDD

0.3 Ã VDD

VHYS

Input hysteresis

0.06 Ã VDD

IICDIO Digital pin negative DC injection current â single pin

â¢ VIN < VSS-0.3V

-5

IICAIO

Analog2, EXTAL, and XTAL pin DC injection current

â single pin

â¢ VIN < VSS-0.3V (Negative current injection)

-5

â¢ VIN > VDD+0.3V (Positive current injection)

IICcont

Contiguous pin DC injection current âregional limit,

includes sum of negative injection currents or sum of

positive injection currents of 16 contiguous pins

â¢ Negative current injection

-25

â¢ Positive current injection

+25

VRAM

VDD voltage required to retain RAM

1.2

VRFVBAT VBAT voltage required to retain the VBAT register file VPOR_VBAT

1. All 5 V tolerant digital I/O pins are internally clamped to VSS through a ESD protection diode. There is no diode connection

to VDD. If VIN greater than VDIO_MIN (=VSS-0.3V) is observed, then there is no need to provide current limiting resistors at

the pads. If this limit cannot be observed then a current limiting resistor is required. The negative DC injection current

limiting resistor is calculated as R=(VDIO_MIN-VIN)/|IIC|.

2. Analog pins are defined as pins that do not have an associated general purpose I/O port function.

3. All analog pins are internally clamped to VSS and VDD through ESD protection diodes. If VIN is greater than VAIO_MIN

(=VSS-0.3V) and VIN is less than VAIO_MAX(=VDD+0.3V) is observed, then there is no need to provide current limiting

resistors at the pads. If these limits cannot be observed then a current limiting resistor is required. The negative DC

injection current limiting resistor is calculated as R=(VAIO_MIN-VIN)/|IIC|. The positive injection current limiting resistor is

calcualted as R=(VIN-VAIO_MAX)/|IIC|. Select the larger of these two calculated resistances.

K30 Sub-Family Data Sheet, Rev. 2, 4/2012.

Freescale Semiconductor, Inc.

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