Ubuntu Som
Model: MY-IMX6-CB200-6Q7C
NXP® i.MX6Quad core
ARM Cortex-A9
1GB DDR3(64 bit), up to 2G
4G EMMC, up to 64G
Model: MY-IMX6-CB200-6Q7C
NXP® i.MX6Quad core
ARM Cortex-A9
1GB DDR3(64 bit), up to 2G
4G EMMC, up to 64G
Industrial grade
-40°C to 85°C Temp
Memory can be custom-made
Main Features
4x ARM Cortex-A9 up to 1GHz per core at work
200 Mtri/s 1000Mpxl/s, OpenGL ES 2.0&Halti, CL EP
1MB L2cache
GPU 2D(Vector Graphics)
32KB instruction and data cache
Vivante GC355 300Mpxl/s, Open VG1.1
NEON SIMDmedia accelerator
GPU 2D(Composition)
GPU 3D
Vivante GC320 600Mpxl/s, BLIT
Vivante GC2000
Video Decode:1080p 60h.264
Hardware BCH(up to 20 corrections)
Video Encode:1080p30H. 264BP 2x720p encode
Camera Interface
Types: 1x 20-bit parallel, MIPI-CSI-2(2 lanes), three simultaneous inputs
OS Support
Linux 3.0.35/Linux 3.14.52/Linux-4.1.15, Android4.4.2/Android5.1, QT4.8.5/QT5, Ubuntu12.04/Ubuntu16.04
Multi-media
GPU 3D
i.MX 6Quad:
Vivante GC2000
200Mtri/s 1000Mpxl/s,OpenGL ES 3.0 & Halti,CL EP
i.MX 6DualLite / i.MX 6Solo:
Vivante GC880
35Mtri/s 266Mpxl/s Open GL ES 2.0
GPU 2D (Vector graphics)
i.MX 6Quad:
Vivante GC355
300Mpxl/s,OpenVG 1.1
i.MX 6DualLite / i.MX 6Solo:
GPU 3D simulation
GPU 2D (composite)
Vivante GC320
600Mpxl/s,BLIT
Video decoding
i.MX 6Quad:
1080p 60 h.264
i.MX 6DualLite / i.MX 6Solo:
1080p30 + D1
Video Coding
i.MX 6Quad / i.MX 6DualLite / i.MX 6Solo:
1080p30 H.264 BP/two 720p coding
Camera interface
i.MX 6Quad:
Type:1x 20bit parallel, MIPI-CSI2 (4way),Three-way simultaneous input
i.MX 6DualLite / i.MX 6Solo:
Type:1x 20bit paralle,MIPI-CSI2 (2 way)
Storage
DDR
NAND
SLC/MLC,40bit ECC,ONFI2.2,DDR
Data connection
Four USB2.0
One HS OTG + PHY
One Host + PHY
Two Host USB HSIC
Ethernet
1 Gbps + IEEE®1588
Expansion port
3个SD/MMC 4.4,1个SDXC
MIPI-HSI
PCIe 2.0 (single way)
Automotive
FlexCAN
MLB
Display
i.MX 6Qual:
2 x 4XGA (2048x1536) or 2 x [1080p + WXGA (1280x720)]
i.MX 6DualLite / i.MX 6Solo:
Two WXGA (1366x786)
EPDC,LVDS,paralle,MIPI-DSI
Instruction of detailed function of pins
| Pin | CPU Ball Name | Pin Name | function selection | module affiliated | function description | voltage |
| 159 | W24 | DISP0_DAT23 | 0 | ipu1 | DISP0_DAT[23] | 3.3V |
| 1 | ipu2 | DISP0_DAT[23] | ||||
| 2 | ecspi1 | SS0 | ||||
| 3 | audmux | AUD4_RXD | ||||
| 4 | sdma | DEBUG_BUS_DEVICE[2] | ||||
| 5 | gpio5 | GPIO[17] | ||||
| 6 | mmdc | MMDC_DEBUG[28] | ||||
| 7 | pl301_mx6q_per1 | HADDR[31] | ||||
| 161 | T23 | DISP0_DAT11 | 0 | ipu1 | DISP0_DAT[11] | 3.3V |
| 1 | ipu2 | DISP0_DAT[11] | ||||
| 3 | usdhc1 | USDHC_DEBUG[7] | ||||
| 4 | sdma | DEBUG_EVENT_CHANNEL[4] | ||||
| 5 | gpio5 | GPIO[5] | ||||
| 6 | mmdc | MMDC_DEBUG[16] | ||||
| 7 | pl301_mx6q_per1 | HADDR[22] | ||||
| 163 | T22 | DISP0_DAT15 | 0 | ipu1 | DISP0_DAT[15] | 3.3V |
| 1 | ipu2 | DISP0_DAT[15] | ||||
| 2 | ecspi1 | SS1 | ||||
| 3 | ecspi2 | SS1 | ||||
| 4 | sdma | DEBUG_EVT_CHN_LINES[2] | ||||
| 5 | gpio5 | GPIO[9] | ||||
| 6 | mmdc | MMDC_DEBUG[20] | ||||
| 7 | pl301_mx6q_per1 | HADDR[25] | ||||
| 165 | R20 | DISP0_DAT13 | 0 | ipu1 | DISP0_DAT[13] | 3.3V |
| 1 | ipu2 | DISP0_DAT[13] | ||||
| 3 | audmux | AUD5_RXFS | ||||
| 4 | sdma | DEBUG_EVT_CHN_LINES[0] | ||||
| 5 | gpio5 | GPIO[7] | ||||
| 6 | mmdc | MMDC_DEBUG[18] | ||||
| 7 | pl301_mx6q_per1 | HADDR[24] | ||||
| 167 | R22 | DISP0_DAT8 | 0 | ipu1 | DISP0_DAT[8] | 3.3V |
| 1 | ipu2 | DISP0_DAT[8] | ||||
| 2 | pwm1 | PWMO | ||||
| 3 | wdog1 | WDOG_B | ||||
| 4 | sdma | DEBUG_EVENT_CHANNEL[1] | ||||
| 5 | gpio4 | GPIO[29] | ||||
| 6 | mmdc | MMDC_DEBUG[13] | ||||
| 7 | pl301_mx6q_per1 | HADDR[19] | ||||
| 169 | P21 | DISP0_DAT3 | 0 | ipu1 | DISP0_DAT[3] | 3.3V |
| 1 | ipu2 | DISP0_DAT[3] | ||||
| 2 | ecspi3 | SS0 | ||||
| 3 | usdhc1 | USDHC_DEBUG[3] | ||||
| 4 | sdma | DEBUG_BUS_ERROR | ||||
| 5 | gpio4 | GPIO[24] | ||||
| 6 | mmdc | MMDC_DEBUG[8] | ||||
| 7 | pl301_mx6q_per1 | HADDR[14] | ||||
| 171 | P22 | DISP0_DAT1 | 0 | ipu1 | DISP0_DAT[1] | 3.3V |
| 1 | ipu2 | DISP0_DAT[1] | ||||
| 2 | ecspi3 | MOSI | ||||
| 3 | usdhc1 | USDHC_DEBUG[1] | ||||
| 4 | sdma | DEBUG_EVENT_CHANNEL_SEL | ||||
| 5 | gpio4 | GPIO[22] | ||||
| 6 | mmdc | MMDC_DEBUG[6] | ||||
| 7 | pl301_mx6q_per1 | HADDR[12] | ||||
| 173 | N21 | DISP0_DRDY | 0 | ipu1 | DI0_PIN15 | 3.3V |
| 1 | ipu2 | DI0_PIN15 | ||||
| 2 | audmux | AUD6_TXC | ||||
| 3 | mipi_core | DPHY_TEST_OUT[29] | ||||
| 4 | sdma | DEBUG_CORE_STATE[1] | ||||
| 5 | gpio4 | GPIO[17] | ||||
| 6 | mmdc | MMDC_DEBUG[1] | ||||
| 175 | N20 | DISP0_VSYNCH | 0 | ipu1 | DI0_PIN3 | 3.3V |
| 1 | ipu2 | DI0_PIN3 | ||||
| 2 | audmux | AUD6_TXFS | ||||
| 3 | mipi_core | DPHY_TEST_OUT[31] | ||||
| 4 | sdma | DEBUG_CORE_STATE[3] | ||||
| 5 | gpio4 | GPIO[19] | ||||
| 6 | mmdc | MMDC_DEBUG[3] | ||||
| 7 | pl301_mx6q_per1 | HADDR[10] | ||||
| 177 | F18 | DISP0_CONTRAST | 0 | usdhc1 | DAT3 | 3.3V |
| 1 | ecspi5 | SS2 | ||||
| 2 | gpt | CMPOUT3 | ||||
| 3 | pwm1 | PWMO | ||||
| 4 | wdog2 | WDOG_B | ||||
| 5 | gpio1 | GPIO[21] | ||||
| 6 | wdog2 | WDOG_RST_B_DEB | ||||
| 179 | N19 | DISP0_CLK | 0 | ipu1 | DI0_DISP_CLK | 3.3V |
| 1 | ipu2 | DI0_DISP_CLK | ||||
| 3 | mipi_core | DPHY_TEST_OUT[28] | ||||
| 4 | sdma | DPHY_TEST_OUT[28] | ||||
| 5 | gpio4 | GPIO[16] | ||||
| 6 | mmdc | MMDC_DEBUG[0] | ||||
| 181 | V25 | DISP0_DAT18 | 0 | ipu1 | DISP0_DAT[18] | 3.3V |
| 1 | ipu2 | DISP0_DAT[18] | ||||
| 2 | ecspi2 | SS0 | ||||
| 3 | audmux | AUD5_TXFS | ||||
| 4 | audmux | AUD4_RXFS | ||||
| 5 | gpio5 | GPIO[12] | ||||
| 6 | mmdc | MMDC_DEBUG[23] | ||||
| 7 | weim | WEIM_CS[2] | ||||
| 183 | V24 | DISP0_DAT22 | 0 | ipu1 | DISP0_DAT[22] | 3.3V |
| 1 | ipu2 | DISP0_DAT[22] | ||||
| 2 | ecspi1 | MISO | ||||
| 3 | audmux | AUD4_TXFS | ||||
| 4 | sdma | DEBUG_BUS_DEVICE[1] | ||||
| 5 | gpio5 | GPIO[16] | ||||
| 6 | mmdc | MMDC_DEBUG[27] | ||||
| 7 | pl301_mx6q_per1 | HADDR[30] | ||||
| 185 | U25 | DISP0_DAT14 | 0 | ipu1 | DISP0_DAT[14] | 3.3V |
| 1 | ipu2 | DISP0_DAT[14] | ||||
| 3 | audmux | AUD5_RXC | ||||
| 4 | sdma | DEBUG_EVT_CHN_LINES[1] | ||||
| 5 | gpio5 | GPIO[8] | ||||
| 6 | mmdc | MMDC_DEBUG[19] | ||||
| 187 | U24 | DISP0_DAT17 | 0 | ipu1 | DISP0_DAT[17] | 3.3V |
| 1 | ipu2 | DISP0_DAT[17] | ||||
| 2 | ecspi2 | DISP0_DAT[17] | ||||
| 3 | audmux | AUD5_TXD | ||||
| 4 | sdma | SDMA_EXT_EVENT[1] | ||||
| 5 | gpio5 | GPIO[11] | ||||
| 6 | mmdc | MMDC_DEBUG[22] | ||||
| 7 | pl301_mx6q_per1 | HADDR[27] | ||||
| 189 | T25 | DISP0_DAT9 | 0 | ipu1 | DISP0_DAT[9] | 3.3V |
| 1 | ipu2 | DISP0_DAT[9] | ||||
| 2 | pwm2 | PWMO | ||||
| 3 | wdog2 | WDOG_B | ||||
| 4 | sdma | DEBUG_EVENT_CHANNEL[2] | ||||
| 5 | gpio4 | GPIO[30] | ||||
| 6 | mmdc | MMDC_DEBUG[14] | ||||
| 7 | pl301_mx6q_per1 | HADDR[20] | ||||
| 191 | T24 | DISP0_DAT12 | 0 | ipu1 | DISP0_DAT[12] | 3.3V |
| 1 | ipu2 | DISP0_DAT[12] | ||||
| 4 | sdma | DEBUG_EVENT_CHANNEL[5] | ||||
| 5 | gpio5 | GPIO[6] | ||||
| 6 | mmdc | MMDC_DEBUG[17] | ||||
| 7 | pl301_mx6q_per1 | HADDR[23] | ||||
| 193 | R25 | DISP0_DAT5 | 0 | ipu1 | DISP0_DAT[5] | 3.3V |
| 1 | ipu2 | DISP0_DAT[5] | ||||
| 2 | ecspi3 | SS2 | ||||
| 3 | audmux | AUD6_RXFS | ||||
| 4 | sdma | DEBUG_MATCHED_DMBUB | ||||
| 5 | gpio4 | GPIO[26] | ||||
| 6 | mmdc | MMDC_DEBUG[10] | ||||
| 7 | pl301_mx6q_per1 | HADDR[16] | ||||
| 195 | R24 | DISP0_DAT7 | 0 | ipu1 | DISP0_DAT[7] | 3.3V |
| 1 | ipu2 | DISP0_DAT[7] | ||||
| 2 | ecspi3 | RDY | ||||
| 3 | usdhc1 | USDHC_DEBUG[5] | ||||
| 4 | sdma | DEBUG_EVENT_CHANNE L[0] | ||||
| 5 | gpio4 | GPIO[28] | ||||
| 6 | mmdc | MMDC_DEBUG[12] | ||||
| 7 | pl301_mx6q_per1 | HADDR[18] | ||||
| 197 | P24 | DISP0_DAT0 | 0 | ipu1 | DISP0_DAT[0] | 3.3V |
| 1 | ipu2 | DISP0_DAT[0] | ||||
| 2 | ecspi3 | SCLK | ||||
| 3 | usdhc1 | USDHC_DEBUG[0] | ||||
| 4 | sdma | DEBUG_CORE_RUN | ||||
| 5 | gpio4 | GPIO[21] | ||||
| 6 | mmdc | MMDC_DEBUG[5] | ||||
| 199 | N25 | DISP0_HSYNCH | 0 | ipu1 | DI0_PIN2 | 3.3V |
| 1 | ipu2 | DI0_PIN2 | ||||
| 2 | audmux | AUD6_TXD | ||||
| 3 | mipi_core | DPHY_TEST_OUT[30] | ||||
| 4 | sdma | DEBUG_CORE_STATE[2] | ||||
| 5 | gpio4 | GPIO[18] | ||||
| 6 | mmdc | MMDC_DEBUG[2] | ||||
| 7 | pl301_mx6q_per1 | HADDR[9] |
Application Area
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
Vending machine motherboard
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
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.
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.
