MCIMX31LCVMN4D Freescale, MCIMX31LCVMN4D Datasheet - Page 15

MCIMX31LCVMN4D

Manufacturer Part Number

MCIMX31LCVMN4D

Description

Manufacturer

Freescale

Datasheet

1.MCIMX31LCVMN4D.pdf (108 pages)

Specifications of MCIMX31LCVMN4D

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Lead Free Status / RoHS Status

Compliant

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4.2

Any MCIMX31C board design must comply with the power-up and power-down sequence guidelines as

described in this section to guarantee reliable operation of the device. Any deviation from these sequences

may result in any or all of the following situations:

4.2.1

The Power On Reset (POR) pin must be kept asserted (low) throughout the power-up sequence. Power-up

logic must guarantee that all power sources reach their target values prior to the release (de-assertion) of

POR.

Freescale Semiconductor

•

NVCC2, NVCC21, NVCC22

Figure 2

Cause excessive current during power-up phase

Prevent the device from booting

Cause irreversible damage to the MCIMX31C (worst-case scenario)

Supply Power-Up/Power-Down Requirements and Restrictions

Stages need to be performed in the order shown; however, within each stage,

Powering Up

supplies can be powered up in any order. For example, supplies IOQVDD, NVCC1,

and NVCC3 through NVCC10 do not need to be powered up in the order shown.

NVCC6 and NVCC9 must be at the same voltage potential. These supplies

are connected together on-chip to optimize ESD damage immunity.

and

Figure 2. Option 1 Power-Up Sequence for Silicon Revision 2.0 and 2.0.1

IOQVDD, NVCC1, NVCC3–10

Figure 3

QVCC, QVCC1, QVCC4

Hold POR Asserted

Release POR

1, 3

show two options of the power-up sequence.

MCIMX31C/MCIMX31LC Technical Data, Rev. 4.3

FVCC, MVCC, SVCC, UVCC

1, 2

CAUTION

NOTE

Notes:

The board design must guarantee that supplies reach 90% level before

transition to the next state, using Power Management IC or other

means.

The NVCC1 supply must not precede IOQVDD by more than 0.2 V until

IOQVDD has reached 1.5 V. If IOQVDD is powered up first, there are

no restrictions.

The parallel paths in the flow indicate that supply group NVCC2,

NVCC21, and NVCC22, and supply group FVCC, MVCC, SVCC, and

UVCC ramp-ups are independent.

and 2.0.1. This supply is dedicated for fuse burning (programming),

and should not be driven upon boot-up.

Raising IOQVDD before NVCC21 produces a slight increase in current

drain on IOQVDD of approximately 3–5 mA. The current increase will

not damage the IC. Refer to Errata ID TLSbo91750 for details.

FUSE_VDD should not be driven on power-up for Silicon Revision 2.0

1,3

Electrical Characteristics

MCIMX31LCVMN4D Freescale, MCIMX31LCVMN4D Datasheet - Page 15

MCIMX31LCVMN4D

Specifications of MCIMX31LCVMN4D

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