TX51-Datasheet

TX51-Datasheet
TX51
System On Module
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Processor
Freescale i.MX515
up to 800 MHz (commercial)
up to 600 MHz (industrial)
RAM
128/256MB mobile DDR-SDRAM
ROM
128MB NAND Flash
RTC
DS1339 Real Time Clock
Power supply Single 3.1V to 5.5V
Size
26mm SO-DIMM
Temp.-Range 0°C..70°C (-40°C..85°C)
Key Features
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10/100Mbps Ethernet
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Two High Speed USB 2.0 ports
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LCD controller up to 1280 x 768, 24bpp
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OpenGL ES 2.0 and OpenVG 1.1
hardware accelerators
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Multi-format HD 720p video decoder and
D1 video encoder hardware engine
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Two Camera Interfaces
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NEON SIMD media accelerator
Unified 256KB L2 cache
Vector Floating Point Unit
Several interfaces:
3x UART, 2x SDIO, 2x SSI/AC97/I2S,
I2C, CSPI, Keypad, Ext. Memory I/F
OS Support
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Windows Embedded CE
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Linux 2.6
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RedBoot Bootloader
Development System
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Starter-Kit V
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
TX51
Board highlights:
Standard TX-DIMM interface
Universal 1.8V Interfaces:
standard TX-DIMM pinout
low power consumption
as small as possible - only 26mm
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4-wire UART (x3)
up to 24-bit LCD Interface
I2C/Keypad
SSI/AC97/I2S
4-wire SDIO (x2)
Camera (x2)
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1-cell Li-Ion/Polymer (3.1V to 4.2V)
5.0V USB supply or AC wall adapter
3.3V
The TX51 is a member of a module series, specially designed for Freescales
i.MX multimedia processors. TX modules are complete computers,
implemented on a board smaller than a credit card, and ready to be designed
into your embedded system. TX modules includes a Freescale® i.MX
processor, SDRAM and Flash memory. The integrated LCD-controller enables
direct connection of an LCD screen. The TX51 is specifically targeted at
High-Speed communication interfaces incl. onboard PHY allows direct use of
embedded multimedia applications where size, high cpu-performance and low connectors/magnetics on the baseboard without the need for additional logic:
power consumption are critical factors. The i.MX515 multimedia applications
processor offers high performance processing optimized for the lowest power
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10/100 Mbps Ethernet
consumption for smartbooks and netbooks. It features Freescale's advanced
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High Speed USB 2.0 OTG
and power-efficient implementation of the ARM Cortex™-A8 core, which
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High Speed USB 2.0 Host
operates at speeds up to 800 MHz.
Power Supply
CPU Complex
The TX51 accepts an input voltage from various sources:
up to 800 MHz ARM Cortex-A8 CPU
Unified 256KB L2 cache
NEON SIMD media accelerator
Vector floating point co-processor
Multimedia
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OpenGL ES 2.0 and OpenVG 1.1 hardware accelerators
Multi-format HD 720p video decoder and D1 video encoder
hardware engine
24-bit primary display support up to WXGA resolution
Analog HD720p component TV output
High quality hardware video de-interlacing
Image and video resize, inversion, and rotation hardware
Alpha blending and color space conversion
Video/graphics combining: four planes &
hardware cursor
Display quality enhancement: color correction,
gamut mapping, gamma correction
Ordering Information
Order Number
TX51/800/128S/128F
TX51/800/256S/128F
i.MX515
800MHz
800MHz
1.8V and 3.3V power supply outputs of the TX51 can also be used on the
baseboard.
SDRAM
128MB
256MB
Flash
128MB
128MB
Temp.
-20°C..70°C
0°C..70°C
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
2010-09-21
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TX51
STARTER-KIT V
The Starter-Kit V is a ready-to-use development
system for building applications based on the TX
embedded processor boards.
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DIMM200 TX socket
Two SD-card sockets
USB 2.0 OTG and USB 2.0 Host connector
D-SUB 15 VGA connector
40pin LCD flat cable header
3.5mm headphone connector
JTAG interface
SGTL5000 audio codec
TSC2007 touchscreen controller
RS232 on 10pin flat cable and SUB-D
header
All pins of the TX socket are connected to
daughter board slot for easy application
design-in
10/100 Mbit/s Ethernet
5VDC Power Supply by USB-OTG or power
jack.
100mm x 160mm
Schematics of the base board are included
for reference.
DISPLAY
The optional display comes with an FFC cable and
a small adapter PCB which can be plugged directly
onto the Starter-Kit 40pin LCD header.
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5,7 inch TFT display
640 x 480 dots
White LED backlight
Touchsceen
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
TX51
PIN
Type
Function
i.MX51 Pad Name
Alternate functions
GPIO/PU
Description (refer to i.MX51 manuals for details)
POWER SUPPLY & RESET
1-4
power
VIN
-
Module power supply input (3.0V-5.5V)
5-7
power
1V8_OUT
-
1.8V buck regulator output, up to 1A
8
1V8
BOOTMODE
-
9-12
power
3V3_OUT
-
10K-PU
Boot mode select
H: Boot from NAND / L: Boot from UART/USB
Leave unconnected or tie to 1V8, if not used.
3.3V buck regulator output, up to 1A
13
power
VBACKUP
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14
2.8V
to
5.5V
PMIC_PWR_ON
-
15
1V8
#RESET_OUT
EIM_A21
16
2V8
#PMIC_RESET_IN
-
10K-PU
17
1V8
#RESET_IN
RESET_IN_B
10K-PU
18
GND
GND
10K-PD
GPIO2_15
DS1339 RTC backup power supply. Supply voltage must be held
between 1.3V and 3.7V for proper RTC operation. This pin can be
connected to a primary cell such as a lithium button cell.
Additionally, this pin can be connected to a rechargeable cell or a
super cap when used with the trickle charge feature.
This is an active high push button input which can be used to signal
PWR_ON and PWR_OFF events to the CPU by controlling the PMIC
ext_wakup signal and select contents of PMIC register 8H'88.
Connected to a GPIO.
Reset Output - active low output: can be caused by all reset source:
power on reset, system reset (RESET_IN), and watchdog reset.
Power On Reset—Active low input signal. Typically a push button
reset or driven by an open collector output. Please refer to the PMIC
datasheet for details. Leave unconnected, if not used.
Master Reset—External active low Schmitt trigger input signal.
When this signal goes active, all modules (except the reset module,
SDRAMC module, and the clock control module) are reset.
Ethernet
19
20
Transmit Data Negative: 100Base-TX or 10Base-T differential
transmit output to magnetics.
analog ETN_TXN
3V3
#ETN_LINKLED
Active low LINK ON indication: Active indicates that the link is on.
21
analog ETN_TXP
Transmit Data Positive: 100Base-TX or 10Base-T differential transmit
output to magnetics.
22
power
+3.3V analog power supply output to magnetics
23
analog ETN_RXN
24
25
26
3V3
ETN_3V3
Receive Data Negative: 100Base-TX or 10Base-T differential receive
input from magnetics.
Active low ACTIVITY indication: Active indicates that there is Carrier
sense (CRS) from the active PMD.
Receive Data Positive: 100Base-TX or 10Base-T differential receive
input from magnetics.
#ETN_ACTLED
analog ETN_RXP
GND
GND
USB-HOST
27
3V3
USBH_VBUSEN
28
3V3
#USBH_OC
Active high external 5V supply enable. This pin is used to enable the
external VBUS power supply.
GPIO1_6
SSI_EXT2_CLK
GPIO1_6
10K-PU
Active low over-current indicator input connected to a GPIO.
29
analog USBH_DM
D- pin of the USB cable
30
analog USBH_VBUS
VBUS pin of the USB cable. This pin is used for the VBUS
comparator inputs.
31
analog USBH_DP
D+ pin of the USB cable
32
GND
GND
USB-OTG
33
3V3
USBOTG_ID
ID
34
3V3
USBOTG_VBUSEN
GPIO1_8
35
36
analog USBOTG_DM
3V3
#USBOTG_OC
ID pin of the USB cable. For an A-Device ID is grounded. For a BDevice ID is floated.
USB_PWR / CLKO2
CSI2_DATA_EN
ESDHC2_CD
GPIO1_8
DM
GPIO1_9
Active high external 5V supply enable. This pin is used to enable the
external VBUS power supply.
D- pin of the USB cable
USB_OC / CLKO
DI2_D1_CS
CCM_OUT_1
ESDHC2_LCTL
GPIO1_9
10K-PU
Active low over-current indicator input connected to a GPIO.
37
analog USBOTG_DP
DP
D+ pin of the USB cable
38
analog USBOTG_VBUS
VBUS
VBUS pin of the USB cable. This pin is used for the VBUS
comparator inputs.
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
TX51
PIN
Type
Function
i.MX51 Pad Name
39
GND
GND
40
1V8
I2C_DATA
EIM_D24
41
1V8
I2C_CLK
EIM_D27
PWM
GPIO1_2
OWIRE
OWIRE_LINE
Alternate functions
GPIO/PU
Description (refer to i.MX51 manuals for details)
I2C
I2C2_SDA
UART3_CTS
AUD6_RXFS
I2C2_SCL
UART3_RTS
AUD6_RXC
GPIO2_8
I2C Data
GPIO2_9
I2C Clock
PWM1_PWMO
I2C2_SCL
CCM_OUT_2
GPIO1_2
Be aware of the voltage level on this pin!
SPDIF_OUT1
GPIO1_24
PWM
42
3V1
1-WIRE
43
1V8
CSPI – Configurable Serial Peripheral Interface
44
1V8
CSPI_SS0
CSPI1_SS0
AUD4_TXC
GPIO4_24
Slave Select (Selectable polarity) signal
45
1V8
CSPI_SS1
CSPI1_SS1
AUD4_TXD
GPIO4_25
Slave Select (Selectable polarity) signal
46
1V8
CSPI_MOSI
CSPI1_MOSI
I2C1_SDA
GPIO4_22
Master Out/Slave In signal
47
1V8
CSPI_MISO
CSPI1_MISO
AUD4_RXD
GPIO4_23
Master In/Slave Out signal
48
1V8
CSPI_SCLK
CSPI1_SCLK
I2C1_SCL
GPIO4_27
Serial Clock signal
49
1V8
CSPI_RDY
CSPI1_RDY
AUD4_TXFS
GPIO4_26
Serial Data Ready signal
50
GND
GND
GPIO3_8
SD Card Detect – connected to a GPIO
SD – Secure Digital Interface 1
51
1V8
SD1_CD
DISPB2_SER_RS
52
1V8
SD1_D[0]
SD1_DATA0
53
1V8
SD1_D[1]
SD1_DATA1
54
1V8
SD1_D[2]
VALID_ESC_IN
DI1_PIN16
DI1_PIN8
AUD5_TXD
CSPI_MISO
-
AUD5_RXD
-
SD1_DATA2
AUD5_TXC
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SD Data bidirectional signals—If the system designer does not want
to make use of the internal pull-up, via the Pull-up enable register, a
50 K–69 K external pull up resistor must be added.
55
1V8
SD1_D[3]
SD1_DATA3
AUD5_TXFS
CSPI_SS1
56
1V8
SD1_CMD
SD1_CMD
AUD5_RXFS
CSPI_MOSI
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SD Command bidirectional signal—If the system designer does not
want to make use of the internal
pull-up, via the Pull-up enable register, a 4. 7K–69 K external pull up
resistor must be added.
57
1V8
SD1_CLK
SD1_CLK
AUD5_RXC
CSPI_SCLK
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SD Output Clock.
58
GND
GND
UART1
59
1V8
UART1_TXD
UART1_TXD
PWM2_PWMO
REQUEST_ESC_OUT
GPIO4_29
Transmit Data output signal
60
1V8
UART1_RXD
UART1_RXD
READY_ESC_OUT
GPIO4_28
Receive Data input signal
61
1V8
UART1_RTS
UART1_RTS
CLK_ESC_OUT
GPIO4_30
Request to Send input signal
62
1V8
UART1_CTS
UART1_CTS
READY_HS_OUT
GPIO4_31
Clear to Send output signal
GPIO1_21
Transmit Data output signal
GPIO1_20
Receive Data input signal
UART2
63
1V8
UART2_TXD
UART2_TXD
64
1V8
UART2_RXD
UART2_RXD
65
1V8
UART2_RTS
EIM_D26
66
1V8
UART2_CTS
EIM_D25
FIRI_RXD
VALID_ESC_OUT
FIRI_TXD
VALID_HS_OUT
KPP_COL[7]
UART3_TXD_MUX
UART2_RTS
CMPOUT2
KPP_COL[6]
UART3_RXD_MUX
UART2_CTS
CMPOUT1
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Request to Send input signal
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Clear to Send output signal
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
TX51
PIN
Type
Function
i.MX51 Pad Name
Alternate functions
GPIO/PU
Description (refer to i.MX51 manuals for details)
UART3
67
1V8
UART3_TXD
UART3_TXD
68
1V8
UART3_RXD
UART3_RXD
69
1V8
UART3_RTS
EIM_D18
70
1V8
UART3_CTS
EIM_D17
71
GND
GND
UART1_DSR
CSI1_D[1]
REQUEST_HS_OUT
UART1_DTR
CSI1_D[0]
SYNC_HS_OUT
UART2_TXD_MUX
UART3_RTS
AUD5_TXC
UART2_RXD_MUX
UART3_CTS
AUD5_RXD
GPIO1_23
Transmit Data output signal
GPIO1_22
Receive Data input signal
GPIO2_2
Request to Send input signal
GPIO2_1
Clear to Send output signal
KEYPAD
72
1V8
KP_COL[0]
KEY_COL0
73
1V8
KP_COL[1]
KEY_COL1
74
1V8
KP_COL[2]
KEY_COL2
75
1V8
KP_COL[3]
KEY_COL3
76
1V8
KP_COL[4]
KEY_COL4
77
1V8
KP_ROW[0]
KEY_ROW0
78
1V8
KP_ROW[1]
KEY_ROW1
79
1V8
KP_ROW[2]
KEY_ROW2
80
1V8
KP_ROW[3]
KEY_ROW3
81
1V8
KP_COL[5]
KEY_COL5
82
GND
GND
CSU_ALARM_AUT[1]
HS_TX_E0
CSU_ALARM_AUT[2]
HS_TX_E1
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Keypad Column selection signals.
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UART1_RI
UART3_RTS
I2C2_SCL
SSI_EXT2_CLK
SPDIF_OUT1
EMI_DSTROBE
SCC_RANDOM_V
RTIC_SEC_VIO
SCC_RANDOM
RTIC_DONE_INT
SJC_DONE
CSU_ALARM_AUT[0]
SJC_FAIL
UART1_DCD
UART3_CTS
I2C2_SDA
SSI_EXT1_CLK
MCT_EXT_ACT_TRIG
-
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Keypad Row selection signals.
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SSI 1 - Serial Audio Port 1
83
1V8
SSI1_INT
DI1_D0_CS
LPDT_ESC_IN
GPIO3_3
GPIO
84
1V8
SSI1_RXD
AUD3_BB_RXD
UART3_RXD_MUX
GPIO4_19
Receive serial data
85
1V8
SSI1_TXD
AUD3_BB_TXD
SLM_DATA
GPIO4_18
Transmit serial data
86
1V8
SSI1_CLK
AUD3_BB_CK
SLM_CLK
GPIO4_20
Serial clock
87
1V8
SSI1_FS
AUD3_BB_FS
UART3_TXD_MUX
GPIO4_21
Frame Sync
88
GND
GND
GPIO3_4
GPIO
SSI 2 - Serial Audio Port 2
89
1V8
SSI2_INT
DI1_D1_CS
90
1V8
SSI2_RXD
EIM_D29
91
1V8
SSI2_TXD
EIM_D28
92
1V8
SSI2_CLK
EIM_D30
93
1V8
SSI2_FS
EIM_D31
94
GND
GND
READY_HS_IN
DI1_PIN14
DI1_PIN5
KPP_ROW[5]
AUD6_RXD
KPP_ROW[4]
AUD6_TXD
KPP_ROW[6]
AUD6_TXC
KPP_ROW[7]
AUD6_TXFS
-
Receive serial data
-
Transmit serial data
-
Serial clock
-
Frame Sync
Secure Digital Interface 2
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
TX51
PIN
Type
Function
Alternate functions
GPIO/PU
95
1V8
SD2_CD
DISPB2_SER_DIO
ACTIVE_HS_IN
DI1_PIN6
WDOG1_RST_B_DEB
GPIO3_6
96
1V8
SD2_D[0]
SD2_DATA0
ESDHC1_DAT4
CSPI_MISO
-
97
1V8
SD2_D[1]
SD2_DATA1
ESDHC1_DAT5
USBOH3_H2_DP
-
98
1V8
SD2_D[2]
SD2_DATA2
ESDHC1_DAT6
USBOH3_H2_DM
-
99
1V8
SD2_D[3]
SD2_DATA3
ESDHC1_DAT7
CSPI_SS2
-
100
1V8
SD2_CMD
SD2_CMD
I2C1_SCL
CSPI_MOSI
-
SD2_CLK
I2C1_SDA
CSPI_SCLK
-
101
1V8
SD2_CLK
102
GND
GND
i.MX51 Pad Name
Description (refer to i.MX51 manuals for details)
SD Card Detect - connected to a GPIO
SD Data bidirectional signals.
SD Command bidirectional signal.
SD Output Clock signal.
CMOS Sensor Interface
103
1V8
CSI_D0
CSI1_D12
-
Sensor port data
104
1V8
CSI_D1
CSI1_D13
-
Sensor port data
105
1V8
CSI_D2
CSI1_D14
-
Sensor port data
106
1V8
CSI_D3
CSI1_D15
-
Sensor port data
107
1V8
CSI_D4
CSI1_D16
-
Sensor port data
108
1V8
CSI_D5
CSI1_D17
-
Sensor port data
109
1V8
CSI_D6
CSI1_D18
-
Sensor port data
110
1V8
CSI_D7
CSI1_D19
-
Sensor port data
111
GND
GND
112
1V8
CSI_HSYNC
CSI1_HSYNC
GPIO3_15
Sensor port horizontal sync
113
1V8
CSI_VSYNC
CSI1_VSYNC
GPIO3_14
Sensor port vertical sync
114
1V8
CSI_PIXCLK
CSI1_PIXCLK
-
Sensor port data latch clock
115
1V8
CSI_MCLK
CSI1_MCLK
-
Sensor port master clock
116
GND
GND
LCD Controller
117
1V8
LD0
DISP1_DAT0
-
LCD Data Bus
118
1V8
LD1
DISP1_DAT1
-
LCD Data Bus
119
1V8
LD2
DISP1_DAT2
-
LCD Data Bus
120
1V8
LD3
DISP1_DAT3
-
LCD Data Bus
121
1V8
LD4
DISP1_DAT4
-
LCD Data Bus
122
1V8
LD5
DISP1_DAT5
-
LCD Data Bus
123
1V8
LD6
DISP1_DAT6
-
LCD Data Bus
124
1V8
LD7
DISP1_DAT7
-
LCD Data Bus
125
1V8
LD8
DISP1_DAT8
-
LCD Data Bus
126
1V8
LD9
DISP1_DAT9
-
LCD Data Bus
127
1V8
LD10
DISP1_DAT10
-
LCD Data Bus
128
1V8
LD11
DISP1_DAT11
-
LCD Data Bus
129
GND
GND
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
TX51
PIN
Type
Function
i.MX51 Pad Name
Alternate functions
130
1V8
LD12
DISP1_DAT12
-
LCD Data Bus
131
1V8
LD13
DISP1_DAT13
-
LCD Data Bus
132
1V8
LD14
DISP1_DAT14
-
LCD Data Bus
133
1V8
LD15
DISP1_DAT15
-
LCD Data Bus
134
1V8
LD16
DISP1_DAT16
-
LCD Data Bus
135
1V8
LD17
DISP1_DAT17
-
LCD Data Bus
136
1V8
LD18
DISP1_DAT18
-
LCD Data Bus
137
1V8
LD19
DISP1_DAT19
-
LCD Data Bus
138
1V8
LD20
DISP1_DAT20
-
LCD Data Bus
139
1V8
LD21
DISP1_DAT21
-
LCD Data Bus
140
1V8
LD22
DISP1_DAT22
-
LCD Data Bus
141
1V8
LD23
DISP1_DAT23
-
LCD Data Bus
142
GND
GND
143
1V8
HSYNC
DI1_PIN2
-
Line Pulse or HSync
144
1V8
VSYNC
DI1_PIN3
-
Frame Sync or Vsync
145
1V8
OE_ACD
DI1_PIN15
-
Alternate Crystal Direction/Output Enable
146
1V8
LSCLK
DI1_DISP_CLK
-
Shift Clock
147
GND
GND
DI2_PIN5
DI2_PIN11
DI2_PIN6
DI2_PIN12
DI2_PIN7
DI2_PIN13
DI2_PIN8
DI2_PIN14
DISP2_DAT[16]
DI2_D0_CS
DISP2_DAT[17]
DI2_D1_CS
GPIO/PU
Description (refer to i.MX51 manuals for details)
Module Specific Signals
WDOG_B
DI2_PIN16
CLKO
CSI2_MCLK
GPIO1_5
CSI2_PIXCLK
RX_BYTE_CLK_HS_O
GPIO4_15
CSI2_VSYNC
CSI2_VSYNC
HS_RX_E
GPIO4_13
1V8
CSI2_HSYNC
CSI2_HSYNC
TX_BYTE_CLK_HS_O
GPIO4_14
152
1V8
CSI2_D12
CSI2_D12
LP_RX_E
GPIO4_9
153
1V8
CSI2_D13
CSI2_D13
RX_VALID_ESC_OUT
GPIO4_10
154
1V8
CSI2_D14
CSI2_D14
-
155
1V8
CSI2_D15
CSI2_D15
-
156
1V8
CSI2_D16
CSI2_D16
-
157
1V8
CSI2_D17
CSI2_D17
-
158
1V8
CSI2_D18
CSI2_D18
HS_TX_E
GPIO4_11
159
1V8
CSI2_D19
CSI2_D19
LP_TX_E
GPIO4_12
160
GND
GND
161
1V8
CSI1_D8
DETECT_Z
GPIO3_12
162
1V8
CSI1_D9
DELAY_Z
GPIO3_13
163
1V8
CSI1_D10
164
1V8
CSI1_D11
148
3V1
CSI2_MCLK
GPIO1_5
149
1V8
CSI2_PIXCLK
150
1V8
151
165
1V8
DISPB2_SER_CLK
166
1V8
DISPB2_SER_DIN
Be aware of the voltage level on this pin!
DI1_PIN17
DI1_PIN7
WDOG2_RST_B_DEB
VALID_HS_IN
DI1_PIN1
GPIO3_7
GPIO3_5
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
TX51
PIN
Type
Function
i.MX51 Pad Name
167
1V8
168
analog
TV_IOB
169
analog
TV_IOG
170
analog
TV_IOR
171
GND
172
power
Alternate functions
GPIO/PU
Description (refer to i.MX51 manuals for details)
CKIH1
GND
PMIC_VIN_BUBAT
Connected to PMIC
External Memory Interface
173
1V8
EIM_CS0
GPIO2_25
174
1V8
EIM_CS1
GPIO2_26
175
1V8
EIM_DTACK
GPIO2_31
176
1V8
EIM_WAIT
-
177
1V8
EIM_EB0
DETECT_D
-
178
1V8
EIM_EB1
DELAY_D
-
179
1V8
EIM_OE
GPIO2_24
180
1V8
EIM_LBA
GPIO3_1
181
1V8
EIM_RW
-
182
1V8
EIM_BCLK
-
183
GND
184
1V8
EIM_DA0
-
185
1V8
EIM_DA1
-
186
1V8
EIM_DA2
-
187
1V8
EIM_DA3
-
188
1V8
EIM_DA4
-
189
1V8
EIM_DA5
-
190
1V8
EIM_DA6
-
191
1V8
EIM_DA7
-
192
1V8
EIM_DA8
-
193
1V8
EIM_DA9
-
194
1V8
EIM_DA10
-
195
1V8
EIM_DA11
-
196
1V8
EIM_DA12
-
197
1V8
EIM_DA13
-
198
1V8
EIM_DA14
-
199
1V8
EIM_DA15
-
200
GND
GND
GND
Ka-Ro electronics GmbH - Pascalstr. 22, D-52076 Aachen, Germany - Tel.: +49 2408 1402-0 (FAX -10)
www.karo-electronics.de
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