MCIMX-LVDS1 Freescale Semiconductor, MCIMX-LVDS1 Datasheet - Page 111

MCIMX-LVDS1

Manufacturer Part Number

MCIMX-LVDS1

Description

MCIMX-LVDS1

Manufacturer

Freescale Semiconductor

Series

-r

Datasheet

1.MCIMX-LVDS1.pdf (144 pages)

Specifications of MCIMX-LVDS1

Rohs Compliant

YES

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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GND

AA11

AA15

AA20

AA21

AB18

AB23

AC18

AC22

AC23

AB22

C12

C20

C21

D19

G19

H10

H12

M10

M12

M14

M16

N11

N13

N15

R11

R13

R15

R17

R20

U15

U19

W19

Y 14

Y 15

Y 19

AB1

AC1

AC2

AB2

A11

A13

A18

A22

A23

B11

B13

B18

B23

E19

F19

F20

F21

F22

J11

J13

J15

J17

J20

K10

K12

K14

K16

K21

L11

L13

L15

P10

P12

P14

P16

P21

T10

T14

T16

V15

V18

V19

V20

V21

V22

U2E

GND_1

GND_2

GND_3

GND_4

GND_5

GND_6

GND_7

GND_8

GND_9

GND_10

GND_11

GND_12

GND_13

GND_14

GND_15

GND_16

GND_17

GND_18

GND_19

GND_20

GND_21

GND_22

GND_23

GND_24

GND_25

GND_26

GND_27

GND_28

GND_29

GND_30

GND_31

GND_32

GND_33

GND_34

GND_35

GND_36

GND_37

GND_38

GND_39

GND_40

GND_41

GND_42

GND_43

GND_44

GND_45

GND_46

GND_47

GND_48

GND_49

GND_50

GND_51

GND_52

GND_53

GND_54

GND_55

GND_56

GND_57

GND_58

GND_59

GND_60

GND_61

GND_62

GND_63

GND_64

GND_65

GND_66

GND_67

GND_68

GND_69

GND_70

GND_71

GND_72

GND_73

GND_74

GND_75

GND_76

GND_77

GND_78

GND_79

GND_80

GND_81

GND_82

GND_83

GND_84

GND_85

GND_86

GND_87

GND_88

GND_89

GND_90

GND_91

GND_92

GND_93

GND_94

GND_95

These signals are reserved for Freescale

manufacturing use only. User must tie both

connections to GND.

i.MX53 - POWER

FASTR_SIG

GND

NVCC_EMI_DRAM_1

NVCC_EMI_DRAM_2

NVCC_EMI_DRAM_3

NVCC_EMI_DRAM_4

NVCC_EMI_DRAM_5

NVCC_EIM_MAIN_1

NVCC_EIM_MAIN_2

NVCC_SRTC_POW

NVCC_EIM_SEC

NVCC_KEY PAD

R25

NVCC_NANDF

VDD_ANA_PLL

NVCC_RESET

VDD_DIG_PLL

NVCC_LCD_1

NVCC_LCD_2

NVCC_PATA

NVCC_GPIO

NVCC_JTAG

NVCC_CKIH

FASTR_ANA

NVCC_XTAL

FASTR_DIG

NVCC_SD1

NVCC_SD2

NVCC_FEC

VDD_FUSE

VDDGP_10

VDDGP_11

VDDGP_12

VDDGP_13

VDDGP_14

VDDGP_15

NVCC_CSI

VDD_REG

VDDGP_1

VDDGP_2

VDDGP_3

VDDGP_4

VDDGP_5

VDDGP_6

VDDGP_7

VDDGP_8

VDDGP_9

SVDDGP

VCC_10

VCC_11

VCC_12

VCC_13

VCC_14

VCC_15

VCC_16

VCC_17

VCC_18

VCC_19

VCC_20

VCC_21

VCC_22

VCC_23

VCC_24

VCC_25

VCC_26

VCC_27

VCC_28

VCC_29

VCC_30

VCC_31

VCC_32

VCC_33

VDDA_1

VDDA_2

VDDA_3

VDDA_4

VDDAL1

VCC_1

VCC_2

VCC_3

VCC_4

VCC_5

VCC_6

VCC_7

VCC_8

VCC_9

SVCC

G10

G11

H11

J10

J12

K11

L10

L12

H13

J14

J16

K13

K15

L14

L16

M11

M13

M15

N10

N12

N14

N16

P11

P13

P15

R10

R12

R14

R16

T11

T13

T15

T17

U18

B22

G12

M17

U12

G18

H18

K17

N17

P17

T18

T12

U10

H16

H15

H14

F11

G15

G17

G16

H17

V12

V11

E18

E17

1.8V

3.3V

1.8V

3.3V

2.775V

1.8V

3.3V

1.8V

3.3V

1.8V

2.5V

1.2V

SVCC

VDD_FUSE

SVDDGP

FASTR_SIG

ANA_PLL_1.8V

DIG_PLL_INT

IMX_NVCC_XTAL

GND

P lac e on T O P

IMX_VDDA_1V2

C29

0.22UF

GND

TP2

0.22UF

C16

0.22UF

C21

0.22UF

C30

0.22UF

GND

P lac e on T O P

C10

0.22UF

C17

0.22UF

C22

0.22UF

TP1

NVCC_SRTC

C31

0.22UF

C54

0.1UF

GND

C11

0.22UF

C18

0.22UF

C23

0.22UF

GND

C37

0.22UF

C69

0.1UF

GND

C72

0.1UF

C42

0.22UF

C12

0.22UF

C19

0.22UF

C24

0.22UF

C32

0.22UF

C64

0.22UF

C46

0.1UF

GND

C55

0.1UF

120OHM

GND

C38

0.22UF

C13

0.22UF

C25

0.22UF

C43

0.22UF

C20

47UF

GND

C33

0.22UF

C56

0.1UF

C47

0.1UF

C65

22UF

NVCC_XTAL_2V5

R210

Customer Note:

Internal generation of VDD_ANA and VDD_DIG have been

proven to work correctly. For customer designs, it is

possible to remove VLDO6, VLDO8 and VLDO10 from

VDDAL, VDD_DIG_PLL, and VDDA respectively, and use

those LDO regulators for other purposes. VDDA and

VDDAL need to be connected to VDD_DIG_PLL

externally in that case.

C14

C26

0.22UF

C39

0.22UF

GND

C34

0.22UF

C57

0.1UF

C44

0.1UF

DNP

C27

0.22UF

C48

0.01UF

C15

22UF

DIG_PLL_1V3

C35

0.22UF

C40

10UF

C58

0.1UF

C28

10UF

GND

C45

22UF

C49

0.01UF

GND

C36

47UF

C59

0.1UF

C41

22UF

GND

C70

0.1UF

C50

0.01UF

GND

VDDGP

VCC_1V3

C60

0.1UF

C66

0.1UF

C71

22UF

VDDA_1V3

DDR_1.5V

VLDO3_3V3

VDDAL_1V3

VDD_REG_2V5

GND

C62

0.1UF

C51

22UF

C61

0.1UF

C67

0.1UF

120OHM

DNP

VIOHI_2V775

GND

To VBUCKCORE

@0.85-1.3V 2A max

To VBUCKPRO

@1.3V 1A max.

To VLDO10_1V3

@1.3V 250mA max

To VBUCKPERI

@2.5V 1A max.

To VBUCKMEM

@1.5V 1A max.

C63

0.1UF

C68

0.1UF

VLDO8_1V8

To VLDO4_2V775

@2.775V 150mA max.

C52

0.1UF

VLDO8_1V8

C53

0.1UF

VBUCKCORE

VLDO3_3V3

VLDO5_1V3

VLDO6_1V3

VLDO7_2V75

VLDO10_1V3

VBUCKPRO

DCDC_3V2

Outputs from DA9053

VBUCKMEM

VBUCKPERI

VPERI_SW

VLDO1_1V3_RTC

THIS MUST BE POWERED UP FIRST

SH1

SH25

SH24

SH2

SH22

SH29

SH3

SH21

SH11

SH13

R12

SH26

SH27

SH6

SH9

VDD_FUSE

TVDAC_2V75

VDDGP

VCC_1V3

SD1_3V3

SATA_1V3

VDDA_1V3

AUDIO_3V2

DDR_1.5V

VDDAL_1V3

LCD_3V2

FEC_3V2

R20

0.02

DNP

SH5

SH7

SH8

R80

SH4

R19

NVCC_SRTC

DNP

Note:

If the internal chip regulators for PLL

circuits are not used, R12 should be

1K Ohm to limit current to VDD_FUSE.

If the internal chip regulators are

supplied by VDD_REG_2V5,

R12 should be 0 Ohm.

NVCC_XTAL_2V5

VDD_REG_2V5

SATA_PHY _2V5

VUSB_2V5

LVDS_2V5

VIOHI_2V775

DDRQ_1.5V

0.02

DNP

ICAP Classif ication:

Drawing Title:

Page Title:

Size

Date:

R17

Document Number

Tuesday , February 01, 2011

VMEM_SW

MCIMX53-QUICKSTART

MX53 POWER

FCP:

___

SCH-26565 PDF: SPF-26565

FIUO:

Sheet

PUBI:

___

Rev

MCIMX-LVDS1 Freescale Semiconductor, MCIMX-LVDS1 Datasheet - Page 111

MCIMX-LVDS1

Specifications of MCIMX-LVDS1

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