“MYZR-IMX6-CB314 Hardware Introduction”的版本间的差异

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Model command rule
Working temperature
 
(未显示同一用户的5个中间版本)
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<div>
 
<div>
  
= '''MY-IMX6-CB314 view''' =
+
= '''MYZR-IMX6-CB314 view''' =
 
----
 
----
 
== '''Front view''' ==
 
== '''Front view''' ==
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[[File:myimx6_cb314_3.5.0.1.png|256px]]
 
[[File:myimx6_cb314_3.5.0.1.png|256px]]
  
= '''MY-IMX6-CB314 parameter''' =
+
= '''MYZR-IMX6-CB314 parameter''' =
 
----
 
----
 
== '''Hardware configuration''' ==
 
== '''Hardware configuration''' ==
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!Cord board model ||CPU ||Memory ||Storage ||Boot mode ||Burning mode || Others
 
!Cord board model ||CPU ||Memory ||Storage ||Boot mode ||Burning mode || Others
 
|-
 
|-
|rowspan=4 |MY-IMX6-CB200
+
|rowspan=4 |MYZR-IMX6-CB200
 
|i.MX 6QP ||1G / 2G ||eMMC: 4G ~ 64G ||SPI Flash ||2 bit dialing)|||Standard configuration:memory 1G,storage 4G
 
|i.MX 6QP ||1G / 2G ||eMMC: 4G ~ 64G ||SPI Flash ||2 bit dialing)|||Standard configuration:memory 1G,storage 4G
 
|-
 
|-
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|colspan=7 |
 
|colspan=7 |
 
|-
 
|-
|rowspan=3 |MY-IMX6-CB314
+
|rowspan=3 |MYZR-IMX6-CB314
 
|i.MX 6QP ||1G / 2G ||eMMC: 4G ~ 64G ||SPI Flash ||2 bit dialing ||Standard configuration:memory 1G,storage 4G
 
|i.MX 6QP ||1G / 2G ||eMMC: 4G ~ 64G ||SPI Flash ||2 bit dialing ||Standard configuration:memory 1G,storage 4G
 
|-
 
|-
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|colspan=7 |
 
|colspan=7 |
 
|-
 
|-
|rowspan=2 |MY-IMX6-CB336
+
|rowspan=2 |MYZR-IMX6-CB336
 
|i.MX 6QP ||1G / 2G ||eMMC: 4G ~ 64G ||SPI Flash ||2 bit dialing ||Standard configuration:memory 1G,storage 4G
 
|i.MX 6QP ||1G / 2G ||eMMC: 4G ~ 64G ||SPI Flash ||2 bit dialing ||Standard configuration:memory 1G,storage 4G
 
|-
 
|-
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=== Working temperature ===
 
=== Working temperature ===
 
* Commercial expansion grade:<br>
 
* Commercial expansion grade:<br>
::-20°C ~ 85°C<br>
+
::0°C ~ 70°C<br>
 
* Industrial grade:<br>
 
* Industrial grade:<br>
 
::-40°C ~ 85°C<br>
 
::-40°C ~ 85°C<br>
 
* Automotive grade:<br>
 
* Automotive grade:<br>
::-40°C ~ 100°C<br>
+
::-40°C ~ 125°C<br>
  
 
=== Storage temperature ===
 
=== Storage temperature ===
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=== '''Model example''' ===
 
=== '''Model example''' ===
* MY-IMX6-CB314-6Q5E-1G-4G<br>
+
* MYZR-IMX6-CB314-6Q5E-1G-4G<br>
 
:CPU:MCIMX6Q5E<br>
 
:CPU:MCIMX6Q5E<br>
 
:Memory Size:1G<br>
 
:Memory Size:1G<br>
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== '''Operating system support''' ==
 
== '''Operating system support''' ==
 
{| class="wikitable"
 
{| class="wikitable"
!colspan=2 |Operating system & version)||MY-IMX6-EK200 ||MY-IMX6-EK314 ||MY-IMX6-EK336 ||MY-IMX6-EK140
+
!colspan=2 |Operating system & version)||MYZR-IMX6-EK200 ||MYZR-IMX6-EK314 ||MYZR-IMX6-EK336 ||MYZR-IMX6-EK140
 
|-
 
|-
 
|rowspan=3 |Linux
 
|rowspan=3 |Linux
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{| class="wikitable"
 
{| class="wikitable"
 
|-
 
|-
|rowspan=3|?Display module
+
|rowspan=3|Display module
 
|HDMI
 
|HDMI
 
|1 way
 
|1 way
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|Gen 2.0
 
|Gen 2.0
 
|-
 
|-
|rowspan=2|?Storage
+
|rowspan=2|Storage
 
|SD/MMC card
 
|SD/MMC card
 
|2 way
 
|2 way
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|SATA II, 3.0 Gbps
 
|SATA II, 3.0 Gbps
 
|-
 
|-
|rowspan=2|?USB
+
|rowspan=2|USB
 
|USBOTG
 
|USBOTG
 
|1 way
 
|1 way
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|UART
 
|UART
 
|UART
 
|UART
|5
+
|5 way
 
|up to 4.0 Mbps
 
|up to 4.0 Mbps
 
|-
 
|-
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|P14
 
|P14
 
|-
 
|-
|P15 || LVDSO_TX1_N || U4 || LVDS0_DATA1_N ||2.5V
+
|P15 || LVDS0_TX1_N || U4 || LVDS0_DATA1_N ||2.5V
 
|-
 
|-
|P16 || LVDSO_TX1_P || U3 || LVDS0_DATA1_P ||2.5V
+
|P16 || LVDS0_TX1_P || U3 || LVDS0_DATA1_P ||2.5V
 
|-
 
|-
 
|P17 || GND || --- || --- || ---
 
|P17 || GND || --- || --- || ---
 
|-
 
|-
|P18 || LVDSO_TX2_N || V2 || LVDS0_DATA2_N ||2.5V
+
|P18 || LVDS0_TX2_N || V2 || LVDS0_DATA2_N ||2.5V
 
|-
 
|-
|P19 || LVDSO_TX2_P || V1 || LVDS0_DATA2_P ||2.5V
+
|P19 || LVDS0_TX2_P || V1 || LVDS0_DATA2_P ||2.5V
 
|-
 
|-
 
|P20 || GND || --- || --- || ---
 
|P20 || GND || --- || --- || ---
 
|-
 
|-
|P21 || LVDSO_TX0_N || U2 || LVDS0_DATA0_N ||2.5V
+
|P21 || LVDS0_TX0_N || U2 || LVDS0_DATA0_N ||2.5V
 
|-
 
|-
|P22 || LVDSO_TX0_P || U1 || LVDS0_DATA0_P ||2.5V
+
|P22 || LVDS0_TX0_P || U1 || LVDS0_DATA0_P ||2.5V
 
|-
 
|-
 
|P23 || GND || --- || --- || ---
 
|P23 || GND || --- || --- || ---
 
|-
 
|-
|P24 || LVDSO_TX3_N || W2 || LVDS0_DATA3_N ||2.5V
+
|P24 || LVDS0_TX3_N || W2 || LVDS0_DATA3_N ||2.5V
 
|-
 
|-
|P25 || LVDSO_TX3_P || W1 || LVDS0_DATA3_P ||2.5V
+
|P25 || LVDS0_TX3_P || W1 || LVDS0_DATA3_P ||2.5V
 
|-
 
|-
 
|P26 || GND || --- || --- || ---
 
|P26 || GND || --- || --- || ---
 
|-
 
|-
|P27 || LVDSO_CLK_N || V4 || LVDSO_CLK_N ||2.5V
+
|P27 || LVDS0_CLK_N || V4 || LVDS0_CLK_N ||2.5V
 
|-
 
|-
|P28 || LVDSO_CLK_P || V3 || LVDSO_CLK_P ||2.5V
+
|P28 || LVDS0_CLK_P || V3 || LVDS0_CLK_P ||2.5V
 
|-
 
|-
 
|P29 || GND || --- || --- || ---
 
|P29 || GND || --- || --- || ---
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|P68 || GND || --- || --- || ---
 
|P68 || GND || --- || --- || ---
 
|-
 
|-
|rowspan=7| P69 ||rowspan=7|DISP0_CONTRAST  ||rowspan=7| F18 ||SD1_DATA3||rowspan=7|3.3V
+
|rowspan=7| P69 ||rowspan=7|SD1_DATA3 ||rowspan=7| F18 ||SD1_DATA3||rowspan=7|3.3V
 
|-
 
|-
 
|ECSPI5_SS2
 
|ECSPI5_SS2
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|GPIO1_IO20
 
|GPIO1_IO20
 
|-
 
|-
|rowspan=5|P72 ||rowspan=5| SD1_DAT1 ||rowspan=5| C20 ||SD1_DATA1 ||rowspan=5|3.3V
+
|rowspan=5|P72 ||rowspan=5| SD1_DATA1 ||rowspan=5| C20 ||SD1_DATA1 ||rowspan=5|3.3V
 
|-
 
|-
 
|ECSPI5_SS0
 
|ECSPI5_SS0
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|P129 || GND || --- || --- || ---
 
|P129 || GND || --- || --- || ---
 
|-
 
|-
|P130 || DSI_REXT || G4 || DSI_REXT|| 2.5V
+
|rowspan=7|P130 ||rowspan=7|rowspan=7| EIM_D20 ||rowspan=7| G20 || EIM_DATA20||rowspan=7| 2.5V
 +
|-
 +
|ECSPI4_SS0
 +
|-
 +
|IPU1_DI0_PIN16
 +
|-
 +
|IPU2_CSI1_DATA15
 +
|-
 +
|UART1_RTS_B
 +
|-
 +
|GPIO3_IO20
 +
|-
 +
|EPIT2_OUT
 
|-
 
|-
 
|P131 || GND || --- || --- || ---
 
|P131 || GND || --- || --- || ---
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|ARM_TRACE11
 
|ARM_TRACE11
 
|-
 
|-
|rowspan=5|S12 ||rowspan=5| CSI0_DATA18 ||rowspan=5|M6 ||IPU1_CSI0_DATA18 ||rowspan=5|2.5V
+
|rowspan=5|S12 ||rowspan=5|CSI0_DATA18 ||rowspan=5|M6 ||IPU1_CSI0_DATA18 ||rowspan=5|2.5V
 
|-
 
|-
 
|EIM_DATA14
 
|EIM_DATA14
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|GPIO1_IO30
 
|GPIO1_IO30
 
|-
 
|-
|rowspan=3|S89 ||rowspan=3|GPIO1_30 ||rowspan=3| W21 ||ENET_TX_DATA0  ||rowspan=3|3.3V
+
|rowspan=5|S89 ||rowspan=5|GPIO1_27 ||rowspan=5| W21 ||XTALOSC_OSC32K_32K_OUT||rowspan=5|3.3V
 
|-
 
|-
|ESAI_TX4_RX1
+
|ENET_RX_DATA0
 +
|-
 +
|ESAI_TX_HF_CLK
 +
|-
 +
|SPDIF_OUT
 
|-
 
|-
|GPIO1_IO30
+
|GPIO1_IO27
 
|-
 
|-
 
|rowspan=5|S90 ||rowspan=5|GPIO1_29 ||rowspan=5| W20 ||MLB_CLK  ||rowspan=5|3.3V
 
|rowspan=5|S90 ||rowspan=5|GPIO1_29 ||rowspan=5| W20 ||MLB_CLK  ||rowspan=5|3.3V
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|IPU2_SISG0
 
|IPU2_SISG0
 
|-
 
|-
|rowspan=7|S110 ||rowspan=7| CSPI1_CS0 ||rowspan=7| E22 || EIM_EB2_B|| rowspan=7| 3.3V  
+
|rowspan=8|S110 ||rowspan=8| CSPI1_CS1 ||rowspan=8| G21 || EIM_EB2_B|| rowspan=8| 3.3V  
 
|-
 
|-
|ECSPI1_SS0 
+
|EIM_DATA19
 
|-
 
|-
|IPU2_CSI1_DATA19
+
|ECSPI1_SS1
 
|-
 
|-
|HDMI_TX_DDC_SCL 
+
|IPU1_DI0_PIN08 
 
|-
 
|-
|GPIO2_IO30
+
|IPU2_CSI1_DATA16
 
|-
 
|-
|I2C2_SCL
+
|UART1_CTS_B
 +
|-
 +
|GPIO3_IO19
 
|-
 
|-
|SRC_BOOT_CFG30
+
|EPIT1_OUT
 
|-
 
|-
 
|rowspan=7| S111 ||rowspan=7| CSPI1_MOSI ||rowspan=7|D24 || EIM_DATA18|| rowspan=7| 3.3V  
 
|rowspan=7| S111 ||rowspan=7| CSPI1_MOSI ||rowspan=7|D24 || EIM_DATA18|| rowspan=7| 3.3V  
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|S158
 
|S158
 
|}
 
|}
 +
  
  
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----
 
----
 
== '''Communication''' ==
 
== '''Communication''' ==
The role of the MY-I.MX6 core module includes reading different sensors to monitor the operation of the system and sending data to the server via GSM under uninterruptible power supply. The cost-effective, highly reliable MY-I.MX6 core module consumes only 0.35 watts of power. It provides multiple interfaces, such as Ethernet, SPI, Universal Asynchronous Transceiver (UART). Multiple GPIO and SD card interfaces, and a wealth of development tools, including CAN and the SPI library. <br>
+
The role of the MYZR-I.MX6 core module includes reading different sensors to monitor the operation of the system and sending data to the server via GSM under uninterruptible power supply. The cost-effective, highly reliable MYZR-I.MX6 core module consumes only 0.35 watts of power. It provides multiple interfaces, such as Ethernet, SPI, Universal Asynchronous Transceiver (UART). Multiple GPIO and SD card interfaces, and a wealth of development tools, including CAN and the SPI library. <br>
  
  
 
== '''Robot and Industrial automation''' ==
 
== '''Robot and Industrial automation''' ==
Linux systems with hard real-time functions are integrated with industrial interfaces such as CAN and RS485. MY-I.MX6 module is an ideal solution for robot and industrial automation applications. It can be implemented more quickly and flexibly on Linux. Or using a variety of available GPIOs, connect to your visual system via a camera interface, or safely back up the data in the process through the Ethernet cloud. Whatever your application is, We are pleased to provide product consulting services when you select the appropriate MY-I.MX6 computer module.<br>
+
Linux systems with hard real-time functions are integrated with industrial interfaces such as CAN and RS485. MYZR-I.MX6 module is an ideal solution for robot and industrial automation applications. It can be implemented more quickly and flexibly on Linux. Or using a variety of available GPIOs, connect to your visual system via a camera interface, or safely back up the data in the process through the Ethernet cloud. Whatever your application is, We are pleased to provide product consulting services when you select the appropriate MYZR-I.MX6 computer module.<br>
  
  
 
== '''Logistics transportation''' ==
 
== '''Logistics transportation''' ==
Every day countless people take bus , subway , train , tramway or taxi , which can be implemented in such international cities as Beijing , Shanghai , Guangzhou , etc . These can be realized by the core module of MY - I . MX6 . In ambulances , police , trucks and even the instrument panel of the waste disposal system and the mobile fleet management system , also can use our computer module . <br>
+
Every day countless people take bus , subway , train , tramway or taxi , which can be implemented in such international cities as Beijing , Shanghai , Guangzhou , etc . These can be realized by the core module of MYZR- I . MX6 . In ambulances , police , trucks and even the instrument panel of the waste disposal system and the mobile fleet management system , also can use our computer module . <br>
  
  
 
== '''Digital signage & entertainment''' ==
 
== '''Digital signage & entertainment''' ==
Whether it's the airport. Railway station or shopping mall and city center-. Digital signs display information that can display different content depending on time and individual needs. Some digital signs can interact with visitors via touch screens or other input devices. Given that other systems may need to update synchronously and display simultaneously on a wide range of screens, there will be great demand for digital signs to display graphics in the future, or you just want to display text information. Our MY-I.MX6 core module cost and optimal power consumption provide amazing multi-screen video and graphics processing capabilities as well as a wide range of connectivity capabilities. Including fast ethernet. Please contact us to find the most suitable computer module for your needs <br>
+
Whether it's the airport. Railway station or shopping mall and city center-. Digital signs display information that can display different content depending on time and individual needs. Some digital signs can interact with visitors via touch screens or other input devices. Given that other systems may need to update synchronously and display simultaneously on a wide range of screens, there will be great demand for digital signs to display graphics in the future, or you just want to display text information. Our MYZR-I.MX6 core module cost and optimal power consumption provide amazing multi-screen video and graphics processing capabilities as well as a wide range of connectivity capabilities. Including fast ethernet. Please contact us to find the most suitable computer module for your needs <br>
  
 
== '''Medical & Health care''' ==
 
== '''Medical & Health care''' ==
From hospital monitoring to home care, embedded computers are widely used in the field of medical devices. Do you want to get complex results from graphics that are easy to understand on the screen? Or, you need to compute the data from a variety of sensors. Either way, the MY-I.MX6 core module is designed and manufactured according to the principle of maximum reliability. Many of our industry-leading customers have successfully obtained 3C and CE products certification. How can we find the right product for you to achieve your mind product?
+
From hospital monitoring to home care, embedded computers are widely used in the field of medical devices. Do you want to get complex results from graphics that are easy to understand on the screen? Or, you need to compute the data from a variety of sensors. Either way, the MYZR-I.MX6 core module is designed and manufactured according to the principle of maximum reliability. Many of our industry-leading customers have successfully obtained 3C and CE products certification. How can we find the right product for you to achieve your mind product?
  
 
== '''Environmental monitoring''' ==
 
== '''Environmental monitoring''' ==
Although the MY-I.MX6 core module is powerful in computing, it has very low energy consumption and no fan applications. They are perfect solution for handheld devices,  low maintenance remote systems or smart sensors. Various sensor input channels, coupled with the advantages of easy connectivity to common networks and low power consumption. Make MYZR series module as the best choice for outdoor environmental monitoring applications, such as tsunami warning system. This module is for many interfaces, such as I2CU SPI. RS232 and others provide convenient connections. <br>
+
Although the MYZR-I.MX6 core module is powerful in computing, it has very low energy consumption and no fan applications. They are perfect solution for handheld devices,  low maintenance remote systems or smart sensors. Various sensor input channels, coupled with the advantages of easy connectivity to common networks and low power consumption. Make MYZR series module as the best choice for outdoor environmental monitoring applications, such as tsunami warning system. This module is for many interfaces, such as I2CU SPI. RS232 and others provide convenient connections. <br>
  
 
== '''Energy & Power''' ==
 
== '''Energy & Power''' ==
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== '''Aviation''' ==
 
== '''Aviation''' ==
Embedded computers play an important role in aviation applications. They exist in a variety of airborne sensors and instruments. In some commercial areas, it also provides on-board entertainment and information services. MY-I.MX6 core modules are portable and compact, and system critical data is stored in non-volatile flash memory. Ensures that the system is almost impossible to fail. High performance, coupled with a wide variety of input and output capabilities. Our customers can use the MY-I.MX6 core module to achieve a variety of applications in and around the aircraft cabin, such as: airborne computers, instrumentation, collision detection, automatic emergency landing system. Video transmission, radar, cockpit control and entertainment information systems-<br>
+
Embedded computers play an important role in aviation applications. They exist in a variety of airborne sensors and instruments. In some commercial areas, it also provides on-board entertainment and information services. MYZR-I.MX6 core modules are portable and compact, and system critical data is stored in non-volatile flash memory. Ensures that the system is almost impossible to fail. High performance, coupled with a wide variety of input and output capabilities. Our customers can use the MYZR-I.MX6 core module to achieve a variety of applications in and around the aircraft cabin, such as: airborne computers, instrumentation, collision detection, automatic emergency landing system. Video transmission, radar, cockpit control and entertainment information systems-<br>
  
 
== '''Laboratory equipment''' ==
 
== '''Laboratory equipment''' ==
From mass spectrometers to electronic scales. MY-I.MX6 core modules can be widely used in scientific laboratory instrumentation products of market leaders in their respective fields. Depending on the functionality, processing power, and interfaces you need for the device you are designing. Or the amount of memory may be an important feature of the modular product you choose. Do you need to output to a particular type of display or do the product receive data from different types of sensors? For each of these modules, you need to select a different feature. You may need a touch screen interface, a camera interface for USB hosts and clients, and multiple SD card interfaces. Internal solid state storage, etc. Please contact us, we will tell you which modules best meet your requirements. <br>
+
From mass spectrometers to electronic scales. MYZR-I.MX6 core modules can be widely used in scientific laboratory instrumentation products of market leaders in their respective fields. Depending on the functionality, processing power, and interfaces you need for the device you are designing. Or the amount of memory may be an important feature of the modular product you choose. Do you need to output to a particular type of display or do the product receive data from different types of sensors? For each of these modules, you need to select a different feature. You may need a touch screen interface, a camera interface for USB hosts and clients, and multiple SD card interfaces. Internal solid state storage, etc. Please contact us, we will tell you which modules best meet your requirements. <br>
  
 
== '''Access & Security Control''' ==
 
== '''Access & Security Control''' ==
Millions of people a day use security systems and access control devices. These products feature miniature sizes, low power consumption and connections to many different video input systems, making them an ideal platform for such devices. Biometric devices, such as video surveillance systems, fingerprints and iris scanners, are used in parking lots or in and out of gate control equipment. MY-I.MX6 core modules have image sensor interfaces. Wireless connection solution and interface to many peripherals. High performance, low power consumption and processor without fan design, no strict temperature control extreme operating temperature. It can be a reliable solution in the areas of banking and commercial activity organizers, customs, police and military alert. <br>
+
Millions of people a day use security systems and access control devices. These products feature miniature sizes, low power consumption and connections to many different video input systems, making them an ideal platform for such devices. Biometric devices, such as video surveillance systems, fingerprints and iris scanners, are used in parking lots or in and out of gate control equipment. MYZR-I.MX6 core modules have image sensor interfaces. Wireless connection solution and interface to many peripherals. High performance, low power consumption and processor without fan design, no strict temperature control extreme operating temperature. It can be a reliable solution in the areas of banking and commercial activity organizers, customs, police and military alert. <br>
  
 
== '''Voyage''' ==
 
== '''Voyage''' ==
Harsh anti vibration and can operate in industrial temperature range, has been the ship equipment used to select computer module prerequisites for our products by customers. The module is integrated into the sonar system, fleet management, communication unit and marine diesel engine controller. MY-I.MX6 core module also can meet the most stringent requirements of marine certification agency. <br>
+
Harsh anti vibration and can operate in industrial temperature range, has been the ship equipment used to select computer module prerequisites for our products by customers. The module is integrated into the sonar system, fleet management, communication unit and marine diesel engine controller. MYZR-I.MX6 core module also can meet the most stringent requirements of marine certification agency. <br>
  
 
== '''Building automation control''' ==
 
== '''Building automation control''' ==
More and more building automation control applications provide comfort, energy saving and security. Mobile remote control devices to visualize these state information by computer. Users only need to set control conditions and rules in advance. MY-I.MX6 core module has rich graphics and the processing power of the video stream interface. It provides many interfaces, such as I2C, USB, Ethernet, ADC, SPI. And because of its low power consumption, it becomes ideal selection for the field of building automation, PoE powered Control panels and other applications. <br>
+
More and more building automation control applications provide comfort, energy saving and security. Mobile remote control devices to visualize these state information by computer. Users only need to set control conditions and rules in advance. MYZR-I.MX6 core module has rich graphics and the processing power of the video stream interface. It provides many interfaces, such as I2C, USB, Ethernet, ADC, SPI. And because of its low power consumption, it becomes ideal selection for the field of building automation, PoE powered Control panels and other applications. <br>
  
  
 
== '''Automotive & entertainment''' ==
 
== '''Automotive & entertainment''' ==
MY-I.MX6 core modules can be widely used in the automotive field, such as fleet management, automotive rally car engine diagnosis, information entertainment
+
MYZR-I.MX6 core modules can be widely used in the automotive field, such as fleet management, automotive rally car engine diagnosis, information entertainment
system and passenger information management, thanks to industrial temperature range. With anti-vibration hardware design, amazing video and 3D graphics processing capabilities, extremely high video output resolution, CAN interface. Achieve the full range of computer modules that appeal to all applications, whether you are producing high-end private cars or having to track and manage commercial fleets. The MY-I.MX6 core modules produced by MYZR have a large number of application examples. Through these examples, you can find the right computer module products to meet the intended use. <br>
+
system and passenger information management, thanks to industrial temperature range. With anti-vibration hardware design, amazing video and 3D graphics processing capabilities, extremely high video output resolution, CAN interface. Achieve the full range of computer modules that appeal to all applications, whether you are producing high-end private cars or having to track and manage commercial fleets. The MYZR-I.MX6 core modules produced by MYZR have a large number of application examples. Through these examples, you can find the right computer module products to meet the intended use. <br>
  
 
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2020年10月30日 (五) 16:14的最新版本

MYZR-IMX6-CB314 view


Front view

Myimx6 cb314 1.0.0.1.png

Size

Myimx6 cb314 3.5.0.1.png

MYZR-IMX6-CB314 parameter


Hardware configuration

Cord board model CPU Memory Storage Boot mode Burning mode Others
MYZR-IMX6-CB200 i.MX 6QP 1G / 2G eMMC: 4G ~ 64G SPI Flash 2 bit dialing) Standard configuration:memory 1G,storage 4G
i.MX 6Q 1G / 2G eMMC: 4G ~ 64G SPI Flash 2 bit dialing Standard configuration:memory 1G,storage 4G)
i.MX 6U 1G eMMC: 4G ~ 64G SPI Flash 2 bit dialing Standard configuration:memory 1G,storage 4G
i.MX 6S 512M / 1G eMMC: 4G ~ 64G SPI Flash 2 bit dialing Standard configuration:memory 512M,storage 4G
MYZR-IMX6-CB314 i.MX 6QP 1G / 2G eMMC: 4G ~ 64G SPI Flash 2 bit dialing Standard configuration:memory 1G,storage 4G
i.MX 6Q 1G / 2G eMMC: 4G ~ 64G SPI Flash 2 bit dialing Standard configuration:memory 1G,storage 4G
i.MX 6U 1G eMMC: 4G ~ 64G SPI Flash 2 bit dialing Standard configuration:memory 1G,storage 4G
MYZR-IMX6-CB336 i.MX 6QP 1G / 2G eMMC: 4G ~ 64G SPI Flash 2 bit dialing Standard configuration:memory 1G,storage 4G
i.MX 6Q 1G / 2G eMMC: 4G ~ 64G SPI Flash 2 bit dialing Standard configuration:memory 1G,storage 4G
Instruction:the series of core boards mentioned above can be offered in grades of automotive/industrial /commercial 。standard configuration is commercial grade

Temperature range

Working temperature

  • Commercial expansion grade:
0°C ~ 70°C
  • Industrial grade:
-40°C ~ 85°C
  • Automotive grade:
-40°C ~ 125°C

Storage temperature

-60°C ~ 125°C

Model command rule

MYZR imx6 name1.jpg

Model example

  • MYZR-IMX6-CB314-6Q5E-1G-4G
CPU:MCIMX6Q5E
Memory Size:1G
eMMC Size:4G

Operating system support

Operating system & version) MYZR-IMX6-EK200 MYZR-IMX6-EK314 MYZR-IMX6-EK336 MYZR-IMX6-EK140
Linux Linux-3.0.35 YES YES - -
Linux-3.14.52 YES YES - -
Linux-4.1.15 YES YES YES YES
Android Android 4.2.2 YES - - -
Android 4.4.2 YES YES - -
Android-5.1.1 YES YES YES -
QT QT-4.8.5 YES YES - YES
QT-5.5.0 YES YES YES -
Ubuntu Ubuntu 11.10 YES YES - -
Ubuntu 12.04 YES YES - -

Hardware interface

Display module HDMI 1 way 1.4 port
LVDS 2 way 8bit mode, up to 165 Mpixels/s
RGB 1 way 24 bit mode
Camera CSI 1 way 8 bit mode
Mipi 1 way 2 Lanes
Ethernet RGMII 1 way 1000M
Audio I2S/SSI/AC97 1 way up to 1.4 Mbps
PCI Express PCI Express 1 way Gen 2.0
Storage SD/MMC card 2 way 4/8bit
SATA 1 way SATA II, 3.0 Gbps
USB USBOTG 1 way 480M high speed
USBHOST 1 way 480M high speed
CSPI CSPI 2 way High speed
UART UART 5 way up to 4.0 Mbps
CAN CAN 2 way 1 Mbps each
PWM PWM 1 way Configuration of 4 way is optional
I2C I2C 3 way supporting 400 kbps
IO expansion Multiple way 21 way Can configure without pin
Watchdog Watchdog 1 way Hardware watchdog
Bus EIM 1 way 16 bit bus expansion
Debug JTAG 1 way JTAG debug

Power Supply

5V input

Defaulted display selection

LVDS0

LVDS0 7-inch TFT crystal liquid display(24bit LVDS port)

Resolution 1024X600@60Hz

White backlight

Capacitor touch

LVDS1

LVDS1 7-inch TFT crystal liquid display(24bit LVDS port)

Resolution 1024X600@60Hz

White backlight

Capacitor touch

RGB

LVDS1 7-inch TFT crystal liquid display(24bit RGB port)

Resolution 800X480@60Hz

White backlight

Capacitor touch

HDMI

HDMI-output (24bit HDMI port)

1920X1080@60Hz, compatible 16/18/24bpp

Definition of pin

No. Pin name Voltag) No. Pin name Voltage
P1 GND 0V S1 GND 0V
P2 GND 0V S2 GND 0V
P3 GND 0V S3 CSI0_PIXCLK 2.5V
P4 UART1_RX 2.5V S4 CSI0_VSYNCH 2.5V
P5 UART1_TX 2.5V S5 CSI0_DAT12 2.5V
P6 AUD3_TXC 2.5V S6 CSI0_DAT13 2.5V
P7 AUD3_TXD 2.5V S7 CSI0_DAT19 2.5V
P8 GPIO_0_CLKO 3.3V S8 CSI0_DATA_EN 2.5V
P9 AUD3_RXD 2.5V S9 CSI0_DAT17 2.5V
P10 AUD3_TXFS 2.5V S10 CSI0_DAT16 2.5V
P11 UART5_RXD 3.3V S11 CSI0_DAT14 2.5V
P12 UART5_TXD 3.3V S12 CSI0_DAT18 2.5V
P13 GND 0V S13 CSI0_DAT15 2.5V
P14 GND 0V S14 CSI0_HSYNCH 2.5V
P15 LVDSO_TX1_N 2.5V S15 GND 0V
P16 LVDSO_TX1_P 2.5V S16 GND 0V
P17 GND 0V S17 CAN1_TX 3.3V
P18 LVDSO_TX2_N 2.5V S18 CAN1_RX 3.3V
P19 LVDSO_TX2_P 2.5V S19 GND 0V
P20 GND 0V S20 I2C2_SDA 3.3V
P21 LVDSO_TX0_N 2.5V S21 I2C2_SCL 3.3V
P22 LVDSO_TX0_P 2.5V S22 GND 0V
P23 GND 0V S23 I2C3_SDA 3.3V
P24 LVDSO_TX3_N 2.5V S24 I2C3_SCL 3.3V
P25 LVDSO_TX3_P 2.5V S25 GND 0V
P26 GND 0V S26 UART4_RXD 3.3V
P27 LVDSO_CLK_N 2.5V S27 UART4_TXD 3.3V
P28 LVDSO_CLK_P 2.5V S28 GND 0V
P29 GND 0V S29 CAN2_TX 3.3V
P30 DISP0_DAT18 3.3V S30 CAN2_RX 3.3V
P31 DISP0_DAT22 3.3V S31 GND 0V
P32 DISP0_DAT14 3.3V S32 KEY_COL2 3.3V
P33 DISP0_DAT17 3.3V S33 GND 0V
P34 DISP0_DAT9 3.3V S34 LVDS1_TX1_P 2.5V
P35 DISP0_DAT12 3.3V S35 LVDS1_TX1_N 2.5V
P36 DISP0_DAT5 3.3V S36 GND 0V
P37 DISP0_DAT7 3.3V S37 LVDS1_TX0_P 2.5V
P38 DISP0_CNTRST 3.3V S38 LVDS1_TX0_N 2.5V
P39 DISP0_DAT0 3.3V S39 GND 0V
P40 DISP0_HSYNCH 3.3V S40 LVDS1_CLK_N 2.5V
P41 DISP0_DAT13 3.3V S41 LVDS1_CLK_P 2.5V
P42 DISP0_DAT16 3.3V S42 GND 0V
P43 DISP0_DAT21 3.3V S43 LVDS1_TX2_N 2.5V
P44 DISP0_DAT20 3.3V S44 LVDS1_TX2_P 2.5V
P45 DISP0_DAT23 3.3V S45 GND 0V
P46 DISP0_DAT10 3.3V S46 LVDS1_TX3_P 2.5V
P47 DISP0_DAT11 3.3V S47 LVDS1_TX3_N 2.5V
P48 DISP0_DAT19 3.3V S48 GND 0V
P49 DISP0_DAT15 3.3V S49 EIM_DA15 3.3V
P50 DISP0_DAT8 3.3V S50 EIM_WAIT 3.3V
P51 DISP0_DAT6 3.3V S51 CSPI2_CS0 3.3V
P52 DISP0_DAT4 3.3V S52 EIM_DA2 3.3V
P53 DISP0_DAT2 3.3V S53 EIM_DA10 3.3V
P54 DISP0_DAT1 3.3V S54 EIM_EB0 3.3V
P55 DISP0_DAT3 3.3V S55 EIM_DA4 3.3V
P56 DISP0_DRDY 3.3V S56 EIM_EB1 3.3V
P57 DISP0_VSYNCH 3.3V S57 CSPI2_CS1 3.3V
P58 DISP0_CLK 3.3V S58 CSPI2_MOSI 3.3V
P59 GND 0V S59 CSPI2_CLK 3.3V
P60 UART2_CTS 3.3V S60 EIM_DA12 3.3V
P61 UART2_RTS 3.3V S61 EIM_DA7 3.3V
P62 UART2_RXD 3.3V S62 EIM_DA8 3.3V
P63 UART2_TXD 3.3V S63 EIM_DA3 3.3V
P64 UART3_RTS 3.3V S64 EIM_DA6 3.3V
P65 UART3_RXD 3.3V S65 EIM_DA1 3.3V
P66 UART3_TXD 3.3V S66 EIM_DA11 3.3V
P67 UART3_CTS 3.3V S67 CSPI2_MISO 3.3V
P68 GND 0V S68 EIM_DA14 3.3V
P69 SD1_DAT3 3.3V S69 EIM_DA13 3.3V
P70 SD1_DAT2 3.3V S70 EIM_BCLK 3.3V
P71 SD1_CLK 3.3V S71 EIM_DA5 3.3V
P72 SD1_DAT1 3.3V S72 EIM_DA9 3.3V
P73 SD1_CMD 3.3V S73 EIM_DA0 3.3V
P74 SD1_DAT0 3.3V S74 CSPI2_RDY 3.3V
P75 GND 0V S75 EIM_EB3 3.3V
P76 RGMII_INT 2.5V S76 GND 0V
P77 RGMII_MDIO 2.5V S77 USB_OTG_OC 3.3V
P78 RGMII_REF_CLK 2.5V S78 USB_OTG_PWR_EN 3.3V
P79 RGMII_nRST 2.5V S79 GND 0V
P80 RGMII_MDC 2.5V S80 SD2_DATA1 3.3V
P81 RGMII_TD2 2.5V S81 SD2_CMD 3.3V
P82 RGMII_TD1 2.5V S82 SD2_DATA2 3.3V
P83 RGMII_RD3 2.5V S83 SD2_DATA3 3.3V
P84 RGMII_RX_CTL 2.5V S84 SD2_DATA0 3.3V
P85 RGMII_TX_CTL 2.5V S85 SD2_CLK 3.3V
P86 RGMII_TXC 2.5V S86 GPIO1_24 3.3V
P87 RGMII_RD1 2.5V S87 GPIO1_26 3.3V
P88 RGMII_TD0 2.5V S88 GPIO1_30 3.3V
P89 RGMII_RD0 2.5V S89 GPIO1_27 3.3V
P90 RGMII_RXC 2.5V S90 GPIO1_29 3.3V
P91 RGMII_RD2 2.5V S91 MX6_ONOFF 3.3V
P92 RGMII_TD3 2.5V S92 BOOT_MODE1 3.3V
P93 GND 0V S93 BOOT_MODE0 3.3V
P94 SATA_RXN 2.5V S94 GPIO2_5 3.3V
P95 SATA_RXP 2.5V S95 GPIO2_4 3.3V
P96 GND 0V S96 GPIO2_0 3.3V
P97 SATA_TXN 2.5V S97 GPIO2_2 3.3V
P98 SATA_TXP 2.5V S98 GPIO6_11 3.3V
P99 GND 0V S99 GPIO6_9 3.3V
P100 USB_HOST_DP 5V S100 GPIO2_6 3.3V
P101 USB_HOST_DN 5V S101 GPIO2_3 3.3V
P102 GND 0V S102 GPIO2_7 3.3V
P103 USB_OTG_VBUS 5V S103 GPIO6_16 3.3V
P104 USB_H1_VBUS 5V S104 GPIO2_1 3.3V
P105 USB_H1_OC 3.3V S105 GPIO6_7 3.3V
P106 USB_OTG_ID 3.3V S106 GPIO6_14 3.3V
P107 USB_H1_PWR_EN 3.3V S107 GPIO6_8 3.3V
P108 GND 0V S108 GPIO6_10 3.3V
P109 USB_OTG_DP 5V S109 GPIO6_15 3.3V
P110 USB_OTG_DN 5V S110 CSPI1_CS0 3.3V
P111 GND 0V S111 CSPI1_MOSI 3.3V
P112 CLK1_N 2.5V S112 CSPI1_CLK 3.3V
P113 CLK1_P 2.5V S113 CSPI1_RDY 3.3V
P114 GND 0V S114 CSPI1_MISO 3.3V
P115 PCIE_TXM 2.5V S115 GND 0V
P116 PCIE_TXP 2.5V S116 SD3_DATA2 3.3V
P117 GND 0V S117 SD3_CLK 3.3V
P118 PCIE_RXP 2.5V S118 SD3_DATA3 3.3V
P119 PCIE_RXM 2.5V S119 SD3_RST 3.3V
P120 GND 0V S120 SD3_DATA0 3.3V
P121 CSI_D1P 2.5V S121 SD3_DATA1 3.3V
P122 CSI_D1M 2.5V S122 SD3_CMD 3.3V
P123 GND 0V S123 SD3_DATA6 3.3V
P124 CSI_D0M 2.5V S124 SD3_DATA7 3.3V
P125 CSI_D0P 2.5V S125 SD3_DATA5 3.3V
P126 GND 0V S126 SD3_DATA4 3.3V
P127 CSI_CLK0P 2.5V S127 GND 0V
P128 CSI_CLK0M 2.5V S128 JTAG_TDO 3.3V
P129 GND 0V S129 JTAG_TCK 3.3V
P130 DSI_REXT 2.5V S130 JTAG_TDI 3.3V
P131 GND 0V S131 JTAG_TMS 3.3V
P132 DSI_D0P 2.5V S132 nJTAG_TRST 3.3V
P133 DSI_D0M 2.5V S133 GND 0V
P134 GND 0V S134 HDMI_CLKP 2.5V
P135 DSI_D1P 2.5V S135 HDMI_CLKM 2.5V
P136 DSI_D1M 2.5V S136 GND 0V
P137 GND 0V S137 HDMI_D1P 2.5V
P138 DSI_CLK0M 2.5V S138 HDMI_D1M 2.5V
P139 DSI_CLK0P 2.5V S139 GND 0V
P140 GND 0V S140 HDMI_D2P 2.5V
P141 I2C1_SDA 2.5V S141 HDMI_D2M 2.5V
P142 I2C1_SCL 2.5V S142 GND 0V
P143 GPIO1_4 3.3V S143 HDMI_D0M 2.5V
P144 GPIO7_13 3.3V S144 HDMI_D0P 2.5V
P145 GPIO7_12 3.3V S145 GND 0V
P146 GPIO1_5 3.3V S146 HDMI_HPD 2.5V
P147 GPIO7_11 3.3V S147 HDMI_CEC_IN 2.5V
P148 nRESET 3.3V S148 GND 0V
P149 2P5V 2.5V S149 3P3V 3.3V
P150 2P5V 2.5V S150 3P3V 3.3V
P151 GND 0V S151 3P3V 3.3V
P152 GND 0V S152 3P3V 3.3V
P153 GND 0V S153 5VIN 5V
P154 GND 0V S154 5VIN 5V
P155 GND 0V S155 5VIN 5V
P156 GND 0V S156 5VIN 5V
S157 5VIN 5V
S158 5VIN 5V

Pin definition & detailed functional description

froms 1

Pin NO. Pin Name CPU Ball Name Functional description Pin voltage
P1 GND --- --- ---
P2
P3
P4 UART1_RX M3 IPU1_CSI0_DATA11 2.5V
AUD3_RXFS
ECSPI2_SS0
UART1_RX_DATA
GPIO5_IO29
ARM_TRACE08
91 UART1_TX M1 IPU1_CSI0_DATA10 2.5V
AUD3_RXC
ECSPI2_MISO
UART1_TX_DATA
GPIO5_IO28
ARM_TRACE07
P6 AUD3_TXC N1 IPU1_CSI0_DATA04 2.5V
EIM_DATA02
ECSPI1_SCLK
KEY_COL5
AUD3_TXC
GPIO5_IO22
ARM_TRACE01
P7 AUD3_TXD P2 IPU1_CSI0_DATA05 2.5V
EIM_DATA03
ECSPI1_MOSI
KEY_ROW5
AUD3_TXD
GPIO5_IO23
ARM_TRACE02
P8 GPIO_0_CLKO T5 CCM_CLKO1 3.3V
KEY_COL5
ASRC_EXT_CLK
EPIT1_OUT
GPIO1_IO00
USB_H1_PWR
SNVS_VIO_5
P9 AUD3_RXD N3 IPU1_CSI0_DATA07 2.5V
EIM_DATA05
ECSPI1_SS0
KEY_ROW6
AUD3_RXD
GPIO5_IO25
ARM_TRACE04
P10 AUD3_TXFS N4 IPU1_CSI0_DATA06 2.5V
EIM_DATA04
ECSPI1_MISO
KEY_COL6
AUD3_TXFS
GPIO5_IO24
ARM_TRACE03
P11 UART5_RXD U6 ECSPI1_SS0 3.3V
ENET_COL
AUD5_RXD
KEY_ROW1
UART5_RX_DATA
GPIO4_IO09
SD2_VSELECT
P12 UART5_TXD U7 ECSPI1_MISO 3.3V
ENET_MDIO
AUD5_TXFS
KEY_COL1
UART5_TX_DATA
GPIO4_IO08
SD1_VSELECT
P13 GND --- --- ---
P14
P15 LVDS0_TX1_N U4 LVDS0_DATA1_N 2.5V
P16 LVDS0_TX1_P U3 LVDS0_DATA1_P 2.5V
P17 GND --- --- ---
P18 LVDS0_TX2_N V2 LVDS0_DATA2_N 2.5V
P19 LVDS0_TX2_P V1 LVDS0_DATA2_P 2.5V
P20 GND --- --- ---
P21 LVDS0_TX0_N U2 LVDS0_DATA0_N 2.5V
P22 LVDS0_TX0_P U1 LVDS0_DATA0_P 2.5V
P23 GND --- --- ---
P24 LVDS0_TX3_N W2 LVDS0_DATA3_N 2.5V
P25 LVDS0_TX3_P W1 LVDS0_DATA3_P 2.5V
P26 GND --- --- ---
P27 LVDS0_CLK_N V4 LVDS0_CLK_N 2.5V
P28 LVDS0_CLK_P V3 LVDS0_CLK_P 2.5V
P29 GND --- --- ---
P30 DISP0_DAT18 V25 IPU1_DISP0_DATA18 3.3V
IPU2_DISP0_DATA18
ECSPI2_SS0
AUD5_TXFS
AUD4_RXFS
GPIO5_IO12
EIM_CS2_B
P31 DISP0_DAT22 V24 IPU1_DISP0_DATA22 3.3V
IPU2_DISP0_DATA22
ECSPI1_MISO
AUD4_TXFS
GPIO5_IO16
P32 DISP0_DAT14 U25 IPU1_DISP0_DATA14 3.3V
IPU2_DISP0_DATA14
AUD5_RXC
GPIO5_IO08
P33 DISP0_DAT17 U24 IPU1_DISP0_DATA17 3.3V
IPU2_DISP0_DATA17
ECSPI2_MISO
AUD5_TXD
SDMA_EXT_EVENT1
GPIO5_IO11
P34 DISP0_DAT9 T25 IPU1_DISP0_DATA09 3.3V
IPU2_DISP0_DATA09
PWM2_OUT
WDOG2_B
GPIO4_IO30
P35 DISP0_DAT12 T24 IPU1_DISP0_DATA12 3.3V
IPU2_DISP0_DATA12
GPIO5_IO06
P36 DISP0_DAT5 R25 IPU1_DISP0_DATA05 3.3V
DISP0_DATA05
ECSPI3_SS2
AUD6_RXFS
GPIO4_IO26
P37 DISP0_DAT7 R24 IPU1_DISP0_DATA07 3.3V
IPU2_DISP0_DATA07
ECSPI3_RDY
GPIO4_IO28
P38 DISP0_CNTRST P25 IPU1_DI0_PIN04 3.3V
IPU2_DI0_PIN04
AUD6_RXD
SD1_WP
GPIO4_IO20
P39 DISP0_DAT0 P24 IPU1_DISP0_DATA00 3.3V
IPU2_DISP0_DATA00
ECSPI3_SCLK
GPIO4_IO21
P40 DISP0_HSYNCH N25 IPU1_DI0_PIN02 3.3V
IPU2_DI0_PIN02
AUD6_TXD
GPIO4_IO18
P41 DISP0_DAT13 R20 IPU1_DISP0_DATA13 3.3V
IPU2_DISP0_DATA13
AUD5_RXFS
GPIO5_IO07
P42 DISP0_DAT16 T21 IPU1_DISP0_DATA16 3.3V
IPU2_DISP0_DATA16
ECSPI2_MOSI
AUD5_TXC
SDMA_EXT_EVENT0
GPIO5_IO10
P43 DISP0_DAT21 T20 IPU1_DISP0_DATA21 3.3V
IPU2_DISP0_DATA21
ECSPI1_MOSI
AUD4_TXD
GPIO5_IO15
P44 DISP0_DAT20 U22 IPU1_DISP0_DATA20 3.3V
IPU2_DISP0_DATA20
ECSPI1_SCLK
AUD4_TXC
GPIO5_IO14
P45 DISP0_DAT23 W24 IPU1_DISP0_DATA23 3.3V
IPU2_DISP0_DATA23
ECSPI1_SS0
AUD4_RXD
GPIO5_IO17
P46 DISP0_DAT10 R21 IPU1_DISP0_DATA10 3.3V
IPU2_DISP0_DATA10
GPIO4_IO31
P47 DISP0_DAT11 T23 IPU1_DISP0_DATA11 3.3V
IPU2_DISP0_DATA11
GPIO5_IO05
P48 DISP0_DAT19 U23 IPU1_DISP0_DATA19 3.3V
IPU2_DISP0_DATA19
ECSPI2_SCLK
AUD5_RXD
AUD4_RXC
GPIO5_IO13
EIM_CS3_B
P49 DISP0_DAT15 T22 IPU1_DISP0_DATA15 3.3V
IPU2_DISP0_DATA15
ECSPI1_SS1
ECSPI2_SS1
GPIO5_IO09
P50 DISP0_DAT8 R22 IPU1_DISP0_DATA08 3.3V
IPU2_DISP0_DATA08
PWM1_OUT
WDOG1_B
GPIO4_IO29
P51 DISP0_DAT6 R23 IPU1_DISP0_DATA06 3.3V
IPU2_DISP0_DATA06
ECSPI3_SS3
AUD6_RXC
GPIO4_IO27
P52 DISP0_DAT4 P20 IPU1_DISP0_DATA04 3.3V
IPU2_DISP0_DATA04
ECSPI3_SS1
GPIO4_IO25
P53 DISP0_DAT2 P23 IPU1_DISP0_DATA02 3.3V
IPU2_DISP0_DATA02
ECSPI3_MISO
GPIO4_IO23
P54 DISP0_DAT1 P22 IPU1_DISP0_DATA01 3.3V
IPU2_DISP0_DATA01
ECSPI3_MOSI
GPIO4_IO22
P55 DISP0_DAT3 P21 IPU1_DISP0_DATA03 3.3V
IPU2_DISP0_DATA03
ECSPI3_SS0
GPIO4_IO24
P56 DISP0_DRDY N21 IPU1_DI0_PIN15 3.3V
IPU2_DI0_PIN15
AUD6_TXC
GPIO4_IO17
P57 DISP0_VSYNCH N20 IPU1_DI0_PIN03 3.3V
IPU2_DI0_PIN03
AUD6_TXFS
GPIO4_IO19
P58 DISP0_CLK N19 IPU1_DI0_DISP_CLK 3.3V
IPU2_DI0_DISP_CLK
GPIO4_IO16
P59 GND --- --- ---
P60 UART2_CTS G23 EIM_DATA28 3.3V
I2C1_SDA
ECSPI4_MOSI
IPU2_CSI1_DATA12
UART2_CTS_B
GPIO3_IO28
IPU1_EXT_TRIG
IPU1_DI0_PIN13
P61 UART2_RTS J19 EIM_DATA29 3.3V
IPU1_DI1_PIN15
ECSPI4_SS0
UART2_RTS_B
GPIO3_IO29
IPU2_CSI1_VSYNC
IPU1_DI0_PIN14
P62 UART2_RXD E25 EIM_DATA27 3.3V
IPU1_DI1_PIN13
IPU1_CSI0_DATA00
IPU2_CSI1_DATA13
UART2_RX_DATA
GPIO3_IO27
IPU1_SISG3
IPU1_DISP1_DATA23
P63 UART2_TXD E24 EIM_DATA26 3.3V
IPU1_DI1_PIN11
IPU1_CSI0_DATA01
IPU2_CSI1_DATA14
UART2_TX_DATA
UART2_TX_DATA
IPU1_SISG2
IPU1_DISP1_DATA22
P64 UART3_RTS H21 EIM_DATA31 3.3V
IPU1_DISP1_DATA20
IPU1_DI0_PIN12
IPU1_CSI0_DATA02
UART3_RTS_B
GPIO3_IO31
USB_H1_PWR
P65 UART3_RXD G22 EIM_DATA25 3.3V
ECSPI4_SS3
UART3_RX_DA
ECSPI1_SS3
ECSPI2_SS3
GPIO3_IO25
AUD5_RXC
UART1_DSR_B
P66 UART3_TXD F22 EIM_DATA24 3.3V
ECSPI4_SS2
UART3_TX_DATA
ECSPI1_SS2
ECSPI2_SS2
GPIO3_IO24
AUD5_RXFS
UART1_DTR_B
P67 UART3_CTS D25 EIM_DATA23 3.3V
IPU1_DI0_D0_CS
UART3_CTS_B
UART1_DCD_B
IPU2_CSI1_DATA_EN
GPIO3_IO23
IPU1_DI1_PIN02
IPU1_DI1_PIN14
P68 GND --- --- ---
P69 SD1_DATA3 F18 SD1_DATA3 3.3V
ECSPI5_SS2
GPT_COMPARE3
PWM1_OUT
WDOG2_B
GPIO1_IO21
WDOG2_RESET_B_DEB
P70 SD1_DATA2 E19 SD1_DATA2 3.3V
ECSPI5_SS1
GPT_COMPARE2
PWM2_OUT
WDOG1_B
GPIO1_IO19
WDOG1_RESET_B_DEB
P71 SD1_CLK D20 SD1_CLK 3.3V
ECSPI5_SCLK
XTALOSC_OSC32K_32K_OUT
GPT_CLKIN
GPIO1_IO20
P72 SD1_DATA1 C20 SD1_DATA1 3.3V
ECSPI5_SS0
PWM3_OUT
GPT_CAPTURE2
GPIO1_IO17
P73 SD1_CMD B21 SD1_CMD 3.3V
ECSPI5_MOSI
PWM4_OUT
GPT_COMPARE1
GPIO1_IO18
P74 SD1_DAT0 A21 SD1_DATA0 3.3V
ECSPI5_MISO
GPT_CAPTURE1
GPIO1_IO16
P75 GND --- --- ---
P76 RGMII_INT V21 ENET_TX_EN 2.5V
ESAI_TX3_RX2
GPIO1_IO28
P77 RGMII_MDIO V23 ENET_MDIO 2.5V
ESAI_RX_CLK
ENET_1588_EVENT1_OUT
GPIO1_IO22
SPDIF_LOCK
P78 RGMII_REF_CLK V22 ENET_TX_CLK 2.5V
ESAI_RX_FS
GPIO1_IO23
SPDIF_SR_CLK
P79 RGMII_nRST U21 ENET_RX_EN 2.5V
ESAI_TX_CLK
SPDIF_EXT_CLK
GPIO1_IO25
P80 RGMII_MDC V20 MLB_DATA 2.5V
ENET_MDC
ESAI_TX5_RX0
ENET_1588_EVENT1_IN
GPIO1_IO31
P81 RGMII_TD2 E21 HSI_RX_DATA 2.5V
RGMII_TD2
GPIO6_IO22
P82 RGMII_TD1 F20 HSI_RX_FLAG 2.5V
RGMII_TD1
GPIO6_IO21
P83 RGMII_RD3 D23 HSI_TX_WAKE 2.5V
RGMII_RD3
GPIO6_IO29
P84 RGMII_RX_CTL D22 USB_H3_DATA 2.5V
RGMII_RX_CTL
GPIO6_IO24
P85 RGMII_TX_CTL C23 USB_H2_STROBE 2.5V
RGMII_TX_CTL
GPIO6_IO26
ENET_REF_CLK
P86 RGMII_TXC D21 USB_H2_DATA 2.5V
RGMII_TXC
SPDIF_EXT_CLK
GPIO6_IO19
XTALOSC_REF_CLK_24M
P87 RGMII_RD1 B23 HSI_TX_FLAG 2.5V
RGMII_RD1
GPIO6_IO27
P88 RGMII_TD0 C22 HSI_TX_READY 2.5V
RGMII_TD0
GPIO6_IO20
P89 RGMII_RD0 C24 HSI_RX_READY 2.5V
RGMII_RD0
GPIO6_IO25
P90 RGMII_RXC B25 USB_H3_STROBE 2.5V
RGMII_RXC
GPIO6_IO30
P91 RGMII_RD2 B24 HSI_TX_DATA 2.5V
RGMII_RD2
GPIO6_IO28
P92 RGMII_TD3 A24 HSI_RX_WAKE 2.5V
RGMII_TD3
GPIO6_IO23
P93 GND --- --- ---
P94 SATA_RXN A14 SATA_PHY_RX_N 2.5V
P95 SATA_RXP B14 SATA_PHY_RX_P
P96 GND --- --- ---
P97 SATA_TXN B12 SATA_PHY_TX_N 2.5V
P98 SATA_TXP A12 SATA_PHY_TX_P
P99 GND --- --- ---
P100 USB_HOST_DP E10 USB_H1_DP 5V
P101 USB_HOST_DN F10 USB_H1_DN
P102 GND --- --- ---
P103 USB_OTG_VBUS E9 USB_OTG_VBUS 5V
P104 USB_H1_VBUS D10 USB_H1_VBUS
P105 USB_H1_OC J20 EIM_DATA30 3.3V
IPU1_DISP1_DATA21
IPU1_DI0_PIN11
IPU1_CSI0_DATA03
UART3_CTS_B
GPIO3_IO30
USB_H1_OC
P106 USB_OTG_ID T4 ESAI_RX_CLK 3.3V
WDOG2_B
KEY_ROW5
USB_OTG_ID
PWM2_OUT
GPIO1_IO01
SD1_CD_B
P107 USB_H1_PWR_EN T1 ESAI_TX_FS 3.3V
KEY_ROW6
GPIO1_IO02
SD2_WP
MLB_DATA
P108 GND --- --- ---
P109 USB_OTG_DP A6 USB_OTG_DP 5V
P110 USB_OTG_DN B6 USB_OTG_DN
P111 GND --- --- ---
P112 CLK1_N C7 XTALOSC_CLK1_N 2.5V
P113 CLK1_P D7 XTALOSC_CLK1_P
P114 GND --- --- ---
P115 PCIE_TXM A3 PCIE_TX_N 2.5V
P116 PCIE_TXP B3 PCIE_TX_P
P117 GND --- --- ---
P118 PCIE_RXP B2 PCIE_RX_P 2.5V
P119 PCIE_RXM B1 PCIE_RX_N
P120 GND --- --- ---
P121 CSI_D1P D2 CSI_DATA1_P 2.5V
P122 CSI_D1M D1 CSI_DATA1_N
P123 GND --- --- ---
P124 CSI_D0M D2 CSI_DATA0_N 2.5V
P125 CSI_D0P B1 CSI_DATA0_P
P126 GND --- --- ---
P127 CSI_CLK0P F3 CSI_CLK0_P 2.5V
P128 CSI_CLK0M F4 CSI_CLK0_N
P129 GND --- --- ---
P130 rowspan=7| EIM_D20 G20 EIM_DATA20 2.5V
ECSPI4_SS0
IPU1_DI0_PIN16
IPU2_CSI1_DATA15
UART1_RTS_B
GPIO3_IO20
EPIT2_OUT
P131 GND --- --- ---
P132 DSI_D0P G1 DSI_DATA0_P 2.5V
P133 DSI_D0M G2 DSI_DATA0_N
P134 GND --- --- ---
P135 DSI_D1P H1 DSI_DATA1_P 2.5V
P136 DSI_D1M H2 DSI_DATA1_N
P137 GND --- --- ---
P138 DSI_CLK0M H3 DSI_CLK0_N 2.5V
P139 DSI_CLK0P H4 DSI_CLK0_P
P140 GND --- --- ---
P141 I2C1_SDA N6 IPU1_CSI0_DATA08 2.5V
EIM_DATA06
ECSPI2_SCLK
KEY_COL7
I2C1_SDA
GPIO5_IO26
ARM_TRACE05
P142 I2C1_SCL N5 IPU1_CSI0_DATA09 2.5V
EIM_DATA07
ECSPI2_MOSI
KEY_ROW7
I2C1_SCL
GPIO5_IO27
ARM_TRACE06
P143 GPIO1_4 R6 ESAI_TX_HF_CLK 3.3V
KEY_COL7
GPIO1_IO04
SD2_CD_B
P144 GPIO7_13 P6 ESAI_TX1 3.3V
ENET_RX_CLK
SD3_VSELECT
SDMA_EXT_EVENT1
ASRC_EXT_CLK
GPIO7_IO13
SNVS_VIO_5_CTL
P145 GPIO7_12 R1 ESAI_TX0 3.3V
ENET_1588_EVENT3_IN
CCM_PMIC_READY
SDMA_EXT_EVENT0
SPDIF_OUT
GPIO7_IO12
P146 GPIO1_5 R4 ESAI_TX2_RX3 3.3V
KEY_ROW7
CCM_CLKO1
GPIO1_IO05
I2C3_SCL
ARM_EVENTI
P147 GPIO7_11 R2 ESAI_TX3_RX2 3.3V
ENET_1588_EVENT2_IN
ENET_REF_CLK
SD1_LCTL
SPDIF_IN
GPIO7_IO11
I2C3_SDA
JTAG_DE_B
P148 nRESET --- nRESET 3.3V
P149 2P5V --- --- 2.5V
P150
P151 GND --- --- ---
P152
P153
P154
P155
P156

froms 2

Pin NO. Pin Name CPU Ball Name Functional description Pin voltage
S1 GND --- --- ---
S2
S3 CSI0_PIXCLK P1 IPU1_CSI0_PIXCLK 2.5V
GPIO5_IO18
ARM_EVENTO
S4 CSI0_VSYNCH N2 IPU1_CSI0_VSYNC 2.5V
EIM_DATA01
GPIO5_IO21
ARM_TRACE00
S5 CSI0_DAT12 M2 IPU1_CSI0_DATA12 2.5V
EIM_DATA08
UART4_TX_DATA
GPIO5_IO30
ARM_TRACE09
S6 CSI0_DATA13 L1 IPU1_CSI0_DATA13 2.5V
EIM_DATA09
UART4_RX_DATA
GPIO5_IO31
ARM_TRACE10
S7 CSI0_DAT19 L6 IPU1_CSI0_DATA19 2.5V
EIM_DATA15
UART5_CTS_B
GPIO6_IO05
S8 CSI0_DATA_EN P3 IPU1_CSI0_DATA_EN 2.5V
EIM_DATA00
GPIO5_IO20
ARM_TRACE_CLK
S9 CSI0_DAT17 L3 IPU1_CSI0_DATA17 2.5V
EIM_DATA13
UART4_CTS_B
GPIO6_IO03
ARM_TRACE14
S10 CSI0_DAT16 L4 IPU1_CSI0_DATA16 2.5V
EIM_DATA12
UART4_RTS_B
GPIO6_IO02
ARM_TRACE13
S11 CSI0_DAT14 M4 IPU1_CSI0_DATA14 2.5V
EIM_DATA10
UART5_TX_DATA
GPIO6_IO00
ARM_TRACE11
S12 CSI0_DATA18 M6 IPU1_CSI0_DATA18 2.5V
EIM_DATA14
UART5_RTS_B
GPIO6_IO04
ARM_TRACE15
S13 CSI0_DAT15 M5 IPU1_CSI0_DATA15 2.5V
EIM_DATA11
UART5_RX_DATA
GPIO6_IO01
ARM_TRACE12
S14 CSI0_HSYNCH P4 IPU1_CSI0_HSYNC 2.5V
CCM_CLKO1
GPIO5_IO19
ARM_TRACE_CTL
S15 GND --- --- ---
S16
S17 CAN1_TX R3 ESAI_TX4_RX1 3.3V
ECSPI5_RDY
EPIT1_OUT
FLEXCAN1_TX
UART2_TX_DATA
GPIO1_IO07
SPDIF_LOCK
USB_OTG_HOST_MODE
S18 CAN1_RX R5 ESAI_TX5_RX0 3.3V
XTALOSC_REF_CLK_32K
EPIT2_OUT
FLEXCAN1_RX
UART2_RX_DATA
GPIO1_IO08
SPDIF_SR_CLK
USB_OTG_PWR_CTL_WAKE
S19 GND --- --- ---
S20 I2C2_SDA T7 XTALOSC_OSC32K_32K_OUT 3.3V
ASRC_EXT_CLK
HDMI_TX_DDC_SDA
KEY_ROW3
I2C2_SDA
GPIO4_IO13
SD1_VSELECT
S21 I2C2_SCL U5 ECSPI1_SS1 3.3V
ENET_RX_DATA2
FLEXCAN1_TX
KEY_COL2
ENET_MDC
GPIO4_IO10
USB_H1_PWR_CTL_WAKE
S22 GND --- --- ---
S23 I2C3_SDA T3 ESAI_TX_CLK 3.3V
I2C3_SDA
GPIO1_IO06
SD2_LCTL
MLB_SIG
S24 I2C3_SCL R7 ESAI_RX_HF_CLK 3.3V
I2C3_SCL
XTALOSC_REF_CLK_24M
CCM_CLKO2
GPIO1_IO03
USB_H1_OC
MLB_CLK
S25 GND --- --- ---
S26 UART4_RXD V6 ECSPI1_MOSI 3.3V
ENET_TX_DATA3
AUD5_TXD
KEY_ROW0
UART4_RX_DATA
GPIO4_IO07
DCIC2_OUT
S27 UART4_TXD W5 ECSPI1_SCLK 3.3V
ENET_RX_DATA3
AUD5_TXC
KEY_COL0
UART4_TX_DATA
GPIO4_IO06
DCIC1_OUT
S28 GND --- --- ---
S29 CAN2_TX T6 FLEXCAN2_TX 3.3V
IPU1_SISG4
USB_OTG_OC
KEY_COL4
UART5_RTS_B
GPIO4_IO14
S30 CAN2_RX V5 FLEXCAN2_RX 3.3V
IPU1_SISG5
USB_OTG_PWR
KEY_ROW4
UART5_CTS_B
GPIO4_IO15
S31 GND --- --- ---
S32 KEY_COL2 W6 ECSPI1_SS1 3.3V
ENET_RX_DATA2
FLEXCAN1_TX
KEY_COL2
ENET_MDC
GPIO4_IO10
USB_H1_PWR_CTL_WAKE
S33 GND --- --- ---
S34 LVDS1_TX1_P AA1 LVDS1_DATA1_P 2.5V
S35 LVDS1_TX1_N AA2 LVDS1_DATA1_N
S36 GND --- --- ---
S37 LVDS1_TX0_P Y2 LVDS1_DATA0_P 2.5V
S38 LVDS1_TX0_N Y1 LVDS1_DATA0_N
S39 GND --- --- ---
S40 LVDS1_CLK_N Y3 LVDS1_CLK_N 2.5V
S41 LVDS1_CLK_P Y4 LVDS1_CLK_P
S42 GND --- --- ---
S43 LVDS1_TX2_N AB1 LVDS1_DATA2_N 2.5V
S44 LVDS1_TX2_P AB2 LVDS1_DATA2_P
S45 GND --- --- ---
S46 LVDS1_TX3_P AA4 LVDS1_DATA3_P 2.5V
S47 LVDS1_TX3_N AA3 LVDS1_DATA3_N
S48 GND --- --- ---
S49 EIM_DA15 N24 EIM_AD15 3.3V
IPU1_DI1_PIN01
IPU1_DI1_PIN04
GPIO3_IO15
SRC_BOOT_CFG15
S50 EIM_WAIT M25 EIM_WAIT_B 3.3V
EIM_DTACK_B
GPIO5_IO00
SRC_BOOT_CFG25
S51 CSPI2_CS0 K20 EIM_RW 3.3V
IPU1_DI1_PIN08
ECSPI2_SS0
GPIO2_IO26
SRC_BOOT_CFG29
S52 EIM_DA2 L21 EIM_AD02 3.3V
IPU1_DISP1_DATA07
IPU2_CSI1_DATA07
GPIO3_IO02
SRC_BOOT_CFG02
S53 EIM_DA10 L21 EIM_AD10 3.3V
IPU1_DI1_PIN15
IPU2_CSI1_DATA_EN
GPIO3_IO10
SRC_BOOT_CFG10
S54 EIM_EB0 K21 EIM_EB0_B 3.3V
IPU1_DISP1_DATA11
IPU2_CSI1_DATA11
CCM_PMIC_READY
GPIO2_IO28
SRC_BOOT_CFG27
S55 EIM_DA4 L21 EIM_AD04 3.3V
IPU1_DISP1_DATA05
IPU2_CSI1_DATA05
GPIO3_IO04
SRC_BOOT_CFG04
S56 EIM_EB1 K23 EIM_EB1_B 3.3V
IPU1_DISP1_DATA10
IPU2_CSI1_DATA10
GPIO2_IO29
SRC_BOOT_CFG28
S57 CSPI2_CS1 K22 EIM_LBA_B 3.3V
IPU1_DI1_PIN17
ECSPI2_SS1
GPIO2_IO27
SRC_BOOT_CFG26
S58 CSPI2_MOSI J23 EIM_CS1_B 3.3V
IPU1_DI1_PIN06
ECSPI2_MOSI
GPIO2_IO24
S59 CSPI2_CLK H24 EIM_CS0_B 3.3V
IPU1_DI1_PIN05
ECSPI2_SCLK
GPIO2_IO23
S60 EIM_DA12 M24 EIM_AD12 3.3V
IPU1_DI1_PIN03
IPU2_CSI1_VSYNC
GPIO3_IO12
SRC_BOOT_CFG12
S61 EIM_DA7 L25 EIM_AD7 3.3V
IPU1_DISP1_DATA02
IPU2_CSI1_DATA02
GPIO3_IO07
SRC_BOOT_CFG07
S62 EIM_DA8 L24 EIM_AD8 3.3V
IPU1_DISP1_DATA01
IPU2_CSI1_DATA01
GPIO3_IO08
SRC_BOOT_CFG08
S63 EIM_DA3 L25 EIM_AD03 3.3V
IPU1_DISP1_DATA06
IPU2_CSI1_DATA06
GPIO3_IO03
SRC_BOOT_CFG03
S64 EIM_DA6 K25 EIM_AD6 3.3V
IPU1_DISP1_DATA03
IPU2_CSI1_DATA03
GPIO3_IO06
SRC_BOOT_CFG06
S65 EIM_DA1 L25 EIM_AD1 3.3V
IPU1_DISP1_DATA08
IPU2_CSI1_DATA08
GPIO3_IO01
SRC_BOOT_CFG01
S66 EIM_DA11 L25 EIM_AD11 3.3V
IPU1_DI1_PIN02
IPU2_CSI1_HSYNC
GPIO3_IO11
SRC_BOOT_CFG11
S67 CSPI2_MISO J24 EIM_OE_B 3.3V
IPU1_DI1_PIN07
ECSPI2_MISO
GPIO2_IO25
S68 EIM_DA14 N23 EIM_AD14 3.3V
IPU1_DI1_D1_CS
GPIO3_IO14
SRC_BOOT_CFG14
S69 EIM_DA13 M23 EIM_AD13 3.3V
IPU1_DI1_D0_CS
GPIO3_IO13
SRC_BOOT_CFG13
S70 EIM_BCLK N22 EIM_BCLK 3.3V
IPU1_DI1_PIN16
GPIO6_IO31
S71 EIM_DA5 L23 EIM_AD05 3.3V
IPU1_DISP1_DATA04
IPU2_CSI1_DATA04
GPIO3_IO05
SRC_BOOT_CFG05
S72 EIM_DA9 M21 EIM_AD09 3.3V
IPU1_DISP1_DATA00
IPU2_CSI1_DATA00
GPIO3_IO09
SRC_BOOT_CFG09
S73 EIM_DA0 L20 EIM_AD00 3.3V
IPU1_DISP1_DATA09
IPU2_CSI1_DATA09
GPIO3_IO00
SRC_BOOT_CFG00
S74 CSPI2_RDY H19 EIM_ADDR25 3.3V
ECSPI4_SS1
ECSPI2_RDY
IPU1_DI1_PIN12
IPU1_DI0_D1_CS
GPIO5_IO02
HDMI_TX_CEC_LINE
S75 EIM_EB3 F23 EIM_EB3_B 3.3V
ECSPI4_RDY
UART3_RTS_B
UART1_RI_B
IPU2_CSI1_HSYNC
GPIO2_IO31
IPU1_DI1_PIN03
SRC_BOOT_CFG31
S76 GND --- --- ---
S77 USB_OTG_OC H20 EIM_DATA21 3.3V
ECSPI4_SCLK
IPU1_DI0_PIN17
IPU2_CSI1_DATA11
USB_OTG_OC
GPIO3_IO21
I2C1_SCL
SPDIF_IN
S78 USB_OTG_PWR_EN E23 EIM_DATA22 3.3V
ECSPI4_MISO
IPU1_DI0_PIN01
IPU2_CSI1_DATA10
USB_OTG_PWR
GPIO3_IO22
SPDIF_OUT
S79 GND --- --- ---
S80 SD2_DATA1 E20 SD2_DATA1 3.3V
ECSPI5_SS0
EIM_CS2_B
AUD4_TXFS
KEY_COL7
GPIO1_IO14
S81 SD2_CMD F19 SD2_CMD 3.3V
ECSPI5_MOSI
KEY_ROW5
AUD4_RXC
GPIO1_IO11
S82 SD2_DATA2 A23 EIM_EB2_B 3.3V
ECSPI5_SS1
EIM_CS3_B
AUD4_TXD
KEY_ROW6
GPIO1_IO13
S83 SD2_DATA3 B22 SD2_DATA3 3.3V
ECSPI5_SS3
KEY_COL6
AUD4_TXC
GPIO1_IO12
S84 SD2_DATA0 A22 SD2_DATA0 3.3V
ECSPI5_MISO
AUD4_RXD
KEY_ROW7
GPIO1_IO15
DCIC2_OUT
S85 SD2_CLK C21 SD2_CLK 3.3V
ECSPI5_SCLK
KEY_COL5
AUD4_RXFS
GPIO1_IO10
S86 GPIO1_24 W23 USB_OTG_ID 3.3V
ENET_RX_ER
ESAI_RX_HF_CLK
SPDIF_IN
ENET_1588_EVENT2_OUT
GPIO1_IO24
S87 GPIO1_26 W22 MLB_SIG 3.3V
ENET_RX_DATA1
ESAI_TX_FS
ENET_1588_EVENT3_OUT
GPIO1_IO26
S88 GPIO1_30 U20 ENET_TX_DATA0 3.3V
ESAI_TX4_RX1
GPIO1_IO30
S89 GPIO1_27 W21 XTALOSC_OSC32K_32K_OUT 3.3V
ENET_RX_DATA0
ESAI_TX_HF_CLK
SPDIF_OUT
GPIO1_IO27
S90 GPIO1_29 W20 MLB_CLK 3.3V
ENET_TX_DATA1
ESAI_TX2_RX3
ENET_1588_EVENT0_IN
GPIO1_IO29
S91 MX6_ONOFF D12 SRC_ONOFF 3.3V
S92 BOOT_MODE1 F12 SRC_BOOT_MODE1
S93 BOOT_MODE0 C12 SRC_BOOT_MODE0
S94 GPIO2_5 B18 NAND_DATA05 3.3V
SD2_DATA5
GPIO2_IO05
S95 GPIO2_4 A19 NAND_DATA04 3.3V
SD2_DATA4
GPIO2_IO04
S96 GPIO2_0 A18 NAND_DATA00 3.3V
SD1_DATA4
GPIO2_IO00
S97 GPIO2_2 F16 NAND_DATA02 3.3V
SD1_DATA6
GPIO2_IO02
S98 GPIO6_11 F15 NAND_CE0_B 3.3V
GPIO6_IO11
S99 GPIO6_9 E15 NAND_WP_B 3.3V
IPU2_SISG5
GPIO6_IO09
S100 GPIO2_6 E17 NAND_DATA06 3.3V
SD2_DATA6
GPIO2_IO06
S101 GPIO2_3 D17 NAND_DATA03 3.3V
SD1_DATA7
GPIO2_IO03
S102 GPIO2_7 C18 NAND_DATA07 3.3V
SD2_DATA7
GPIO2_IO07
S103 GPIO6_16 D16 NAND_CE3_B 3.3V
IPU1_SISG1
ESAI_TX1
EIM_ADDR26
GPIO6_IO16
IPU2_SISG1
S104 GPIO2_1 C17 NAND_DATA01 3.3V
SD1_DATA5
GPIO2_IO01
S105 GPIO6_7 C15 NAND_CLE 3.3V
IPU2_SISG4
GPIO6_IO07
S106 GPIO6_14 C16 NAND_CE1_B 3.3V
SD4_VSELECT
SD3_VSELECT
GPIO6_IO14
S107 GPIO6_8 A16 NAND_ALE 3.3V
SD4_RESET
GPIO6_IO08
S108 GPIO6_10 A16 NAND_READY_B 3.3V
IPU2_DI0_PIN01
GPIO6_IO10
S109 GPIO6_15 A17 NAND_CE2_B 3.3V
EIM_CRE
CCM_CLKO2
GPIO6_IO15
IPU2_SISG0
S110 CSPI1_CS1 G21 EIM_EB2_B 3.3V
EIM_DATA19
ECSPI1_SS1
IPU1_DI0_PIN08
IPU2_CSI1_DATA16
UART1_CTS_B
GPIO3_IO19
EPIT1_OUT
S111 CSPI1_MOSI D24 EIM_DATA18 3.3V
ECSPI1_MOSI
IPU1_DI0_PIN07
IPU2_CSI1_DATA17
IPU1_DI1_D0_CS
GPIO3_IO18
I2C3_SDA
S112 CSPI1_CLK C25 EIM_DATA16 3.3V
ECSPI1_SCLK
IPU1_DI0_PIN05
IPU2_CSI1_DATA18
HDMI_TX_DDC_SDA
GPIO3_IO16
I2C2_SDA
S113 CSPI1_RDY P5 KEY_COL5 3.3V
ENET_1588_EVENT0_OUT
SPDIF_OUT
CCM_CLKO1
ECSPI1_RDY
GPIO4_IO05
ENET_TX_ER
S114 CSPI1_MISO F21 EIM_DATA17 3.3V
ECSPI1_MISO
IPU1_DI0_PIN06
IPU2_CSI1_PIXCLK
DCIC1_OUT
GPIO3_IO17
I2C3_SCL
S115 GND --- --- ---
S116 SD3_DATA2 A15 SD3_DATA2 3.3V
GPIO7_IO06
S117 SD3_CLK D14 SD3_CLK 3.3V
UART2_RTS_B
FLEXCAN1_RX
GPIO7_IO03
S118 SD3_DATA3 B15 SD3_DATA3 3.3V
UART3_CTS_B
GPIO7_IO07
S119 SD3_RST D15 SD3_RESET 3.3V
UART3_RTS_B
GPIO7_IO08
S120 SD3_DATA0 E14 SD3_DATA0 3.3V
UART1_CTS_B
FLEXCAN2_TX
GPIO7_IO04
S121 SD3_DATA1 F14 SD3_DATA1 3.3V
UART1_RTS_B
FLEXCAN2_RX
GPIO7_IO05
S122 SD3_CMD B13 SD3_CMD 3.3V
UART2_CTS_B
FLEXCAN1_TX
GPIO7_IO02
S123 SD3_DATA6 E13 SD3_DATA6 3.3V
UART1_RX_DATA
GPIO6_IO18
S124 SD3_DATA7 F13 SD3_DATA7 3.3V
UART1_TX_DATA
GPIO6_IO17
S125 SD3_DATA5 C13 SD3_DATA5 3.3V
UART2_TX_DATA
GPIO7_IO00
S126 SD3_DATA4 D13 SD3_DATA4 3.3V
UART2_RX_DATA
GPIO7_IO01
S127 GND --- --- ---
S128 JTAG_TDO G6 JTAG_TDO 3.3V
S129 JTAG_TCK H5 JTAG_TCK
S130 JTAG_TDI G5 JTAG_TDI
S131 JTAG_TMS C3 JTAG_TMS
S132 nJTAG_TRST C2 JTAG_TRSTB
S133 GND --- --- ---
S134 HDMI_CLKP J6 HDMI_TX_CLK_P 2.5V
S135 HDMI_CLKM J5 HDMI_TX_CLK_N
S136 GND --- --- ---
S137 HDMI_D1P J4 HDMI_TX_DATA1_P 2.5V
S138 HDMI_D1M J3 HDMI_TX_DATA1_N
S139 GND --- --- ---
S140 HDMI_D2P K4 HDMI_TX_DATA2_P 2.5V
S141 HDMI_D2M K3 HDMI_TX_DATA2_N
S142 GND --- --- ---
S143 HDMI_D0M K5 HDMI_TX_DATA0_N 2.5V
S144 HDMI_D0P K6 HDMI_TX_DATA0_P
S145 GND --- --- ---
S146 HDMI_HPD K1 HDMI_TX_HPD 2.5V
S147 HDMI_CEC_IN K2 HDMI_TX_DDC_CEC
S148 GND --- --- ---
S149 3P3V --- --- 3.3V
S150
S151
S152
S153 5VIN --- --- 5V
S154
S155
S156
S157
S158


Application area


Communication

The role of the MYZR-I.MX6 core module includes reading different sensors to monitor the operation of the system and sending data to the server via GSM under uninterruptible power supply. The cost-effective, highly reliable MYZR-I.MX6 core module consumes only 0.35 watts of power. It provides multiple interfaces, such as Ethernet, SPI, Universal Asynchronous Transceiver (UART). Multiple GPIO and SD card interfaces, and a wealth of development tools, including CAN and the SPI library.


Robot and Industrial automation

Linux systems with hard real-time functions are integrated with industrial interfaces such as CAN and RS485. MYZR-I.MX6 module is an ideal solution for robot and industrial automation applications. It can be implemented more quickly and flexibly on Linux. Or using a variety of available GPIOs, connect to your visual system via a camera interface, or safely back up the data in the process through the Ethernet cloud. Whatever your application is, We are pleased to provide product consulting services when you select the appropriate MYZR-I.MX6 computer module.


Logistics transportation

Every day countless people take bus , subway , train , tramway or taxi , which can be implemented in such international cities as Beijing , Shanghai , Guangzhou , etc . These can be realized by the core module of MYZR- I . MX6 . In ambulances , police , trucks and even the instrument panel of the waste disposal system and the mobile fleet management system , also can use our computer module .


Digital signage & entertainment

Whether it's the airport. Railway station or shopping mall and city center-. Digital signs display information that can display different content depending on time and individual needs. Some digital signs can interact with visitors via touch screens or other input devices. Given that other systems may need to update synchronously and display simultaneously on a wide range of screens, there will be great demand for digital signs to display graphics in the future, or you just want to display text information. Our MYZR-I.MX6 core module cost and optimal power consumption provide amazing multi-screen video and graphics processing capabilities as well as a wide range of connectivity capabilities. Including fast ethernet. Please contact us to find the most suitable computer module for your needs

Medical & Health care

From hospital monitoring to home care, embedded computers are widely used in the field of medical devices. Do you want to get complex results from graphics that are easy to understand on the screen? Or, you need to compute the data from a variety of sensors. Either way, the MYZR-I.MX6 core module is designed and manufactured according to the principle of maximum reliability. Many of our industry-leading customers have successfully obtained 3C and CE products certification. How can we find the right product for you to achieve your mind product?

Environmental monitoring

Although the MYZR-I.MX6 core module is powerful in computing, it has very low energy consumption and no fan applications. They are perfect solution for handheld devices, low maintenance remote systems or smart sensors. Various sensor input channels, coupled with the advantages of easy connectivity to common networks and low power consumption. Make MYZR series module as the best choice for outdoor environmental monitoring applications, such as tsunami warning system. This module is for many interfaces, such as I2CU SPI. RS232 and others provide convenient connections.

Energy & Power

The power plant: whether they run on renewable energy, nuclear or fossil fuels require reliable process monitoring, control and instrumentation. Core modules have been successfully applied in this field, and receive many certifications from our customers . Applications include: data recorder, smart meter, management system, intelligent sensor, remote monitoring and communication interface. Our core module has reliable operation in each of the last 365 days and extreme environmental condition. Please contact us and we can provide solutions for you according to your special requirements.

Retail & Ticketing

Electronic scale, bar code reader, inventory management system and cash register, core modules can also be used in the array of retail equipment

A large number of tickets are allocated and used in parking lots, toll roads and other places. Not only for the tickets, but also for collecting the appropriate fees at the same time of recycling, the commonly used water heaters and coffee machines in restaurants, catering facilities can help guests get their required
.

Aviation

Embedded computers play an important role in aviation applications. They exist in a variety of airborne sensors and instruments. In some commercial areas, it also provides on-board entertainment and information services. MYZR-I.MX6 core modules are portable and compact, and system critical data is stored in non-volatile flash memory. Ensures that the system is almost impossible to fail. High performance, coupled with a wide variety of input and output capabilities. Our customers can use the MYZR-I.MX6 core module to achieve a variety of applications in and around the aircraft cabin, such as: airborne computers, instrumentation, collision detection, automatic emergency landing system. Video transmission, radar, cockpit control and entertainment information systems-

Laboratory equipment

From mass spectrometers to electronic scales. MYZR-I.MX6 core modules can be widely used in scientific laboratory instrumentation products of market leaders in their respective fields. Depending on the functionality, processing power, and interfaces you need for the device you are designing. Or the amount of memory may be an important feature of the modular product you choose. Do you need to output to a particular type of display or do the product receive data from different types of sensors? For each of these modules, you need to select a different feature. You may need a touch screen interface, a camera interface for USB hosts and clients, and multiple SD card interfaces. Internal solid state storage, etc. Please contact us, we will tell you which modules best meet your requirements.

Access & Security Control

Millions of people a day use security systems and access control devices. These products feature miniature sizes, low power consumption and connections to many different video input systems, making them an ideal platform for such devices. Biometric devices, such as video surveillance systems, fingerprints and iris scanners, are used in parking lots or in and out of gate control equipment. MYZR-I.MX6 core modules have image sensor interfaces. Wireless connection solution and interface to many peripherals. High performance, low power consumption and processor without fan design, no strict temperature control extreme operating temperature. It can be a reliable solution in the areas of banking and commercial activity organizers, customs, police and military alert.

Voyage

Harsh anti vibration and can operate in industrial temperature range, has been the ship equipment used to select computer module prerequisites for our products by customers. The module is integrated into the sonar system, fleet management, communication unit and marine diesel engine controller. MYZR-I.MX6 core module also can meet the most stringent requirements of marine certification agency.

Building automation control

More and more building automation control applications provide comfort, energy saving and security. Mobile remote control devices to visualize these state information by computer. Users only need to set control conditions and rules in advance. MYZR-I.MX6 core module has rich graphics and the processing power of the video stream interface. It provides many interfaces, such as I2C, USB, Ethernet, ADC, SPI. And because of its low power consumption, it becomes ideal selection for the field of building automation, PoE powered Control panels and other applications.


Automotive & entertainment

MYZR-I.MX6 core modules can be widely used in the automotive field, such as fleet management, automotive rally car engine diagnosis, information entertainment system and passenger information management, thanks to industrial temperature range. With anti-vibration hardware design, amazing video and 3D graphics processing capabilities, extremely high video output resolution, CAN interface. Achieve the full range of computer modules that appeal to all applications, whether you are producing high-end private cars or having to track and manage commercial fleets. The MYZR-I.MX6 core modules produced by MYZR have a large number of application examples. Through these examples, you can find the right computer module products to meet the intended use.