MCIMX253DJM4 Freescale, MCIMX253DJM4 Datasheet - Page 18

MCIMX253DJM4

Manufacturer Part Number

MCIMX253DJM4

Description

Manufacturer

Freescale

Datasheet

1.MCIMX253DJM4.pdf (154 pages)

Specifications of MCIMX253DJM4

Operating Temperature (min)

-20C

Operating Temperature (max)

70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Lead Free Status / RoHS Status

Compliant

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3.3

Table 15

and temperature conditions. These values are derived from the i.MX25 with core clock speed up to

400 MHz. Additionally, no power saving techniques such as clock gating were implemented when

measuring these values. Common supplies are bundled according to the i.MX25 power-up sequence

requirements. Peak numbers are provided for system designers so that the i.MX25 power supply

requirements are satisfied during startup and transient conditions. Freescale recommends that system

current measurements are taken with customer-specific use-cases to reflect the normal operating

conditions in the end system.

In addition, the following power-down sequence is recommended:

QVDD

NVCC_EMI1, NVCC_EMI2

NVCC_CRM, NVCC_SDIO, NVCC_CSI,

NVCC_NFC, NVCC_JTAG, NVCC_LCDC,

NVCC_MISC

MPLL_VDD, UPLL_VDD

5. Turn on all other analog power supplies including USBPHY1_VDDA_BIAS,

6. Negate the POR signal at least 90

1. Turn off power for analog parts, including USBPHY1_VDDA_BIAS, USBPHY1_UPLL_VDD,

2. Turn off QVDD.

3. Turn off NVCCx, PLL, OSC, and other powers.

USBPHY1_UPLL_VDD, USBPHY1_VDDA, USBPHY2_VDD, NVCC_ADC,

OSC24M_VDD, MPPLL_VDD, UPLL_VDD and FUSEVDD no less than 1ms and no greater

than 32 ms after QVDD reaches 90% of 1.2V. FUSEVDD is tied to GND if fuses are not being

programmed.

USBPHY1_VDDA, USBPHY2_VDD, NVCC_ADC, and FUSEVDD (FUSEVDD is tied to GND

if fuses are not being programmed).

shows values representing maximum current numbers for the i.MX25 under worst case voltage

Power Characteristics

This is to guarantee that analog peripherals can get properly initialized

(reset) values from QVDD domain and NVCCx domain.

This is to guarantee that both POR logic and clocks are stable inside the

MX25 chip, before POR is removed.

The power-down steps can be executed simultaneously, or very shortly one

after another.

Power Supply

i.MX25 Applications Processor for Consumer and Industrial Products, Rev. 7

Table 15. Power Consumption

μs

after all previous steps.

NOTE

Voltage (V)

1.52

1.65

1.9

3.6

Max Current (mA)

Freescale Semiconductor

360

110

MCIMX253DJM4 Freescale, MCIMX253DJM4 Datasheet - Page 18

MCIMX253DJM4

Specifications of MCIMX253DJM4

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