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Disclaimer

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CPU: Quad ARM Cortex-A55
- 1.8 GHz (2.1 GHz for specific components)
- Cache
  - L1 Cache: 32kB I-cache / 32kB D-cache
  - L2 Cache: 128kB
  - L3 Cache: 1MB
- Support NEON advance SIMD architecture & Floating-point
- Support DVFS
  - 0.5GHz ~1.8GHz for SP7350
  - 0.5GHz ~1.5GHz for SP7350L
- Support individual core power down
- Support 2/4 core configurable by e-fuse (OTP)
- Support maximum frequency limited by e-fuse (OTP)
  - Maximum limited to 1.5GHz, 1.8GHz, and 2.1 GHz
- Support Coresight debug solution
  - JTAG interface
  - CTI and PMU
  - ETB: 1k to 4k bytes buffer size per core
NPU: AI and Parallel Processing Engine
- Up to 4.1 TOPS (@900MHz) computing power
- Support configurable operating frequency
- Support individual controllable power domain.
- Support OpenCL and OpenVX with Neural Network Extension
MCU: ARM Cortex-M4
- Support FPU
- Support 400MHz, 200MHz, 100MHz and 25MHz
- Support JTAG and SWD interface
DDR SDRAM
- LPDDR4-3200, DDR4-3200, LPDDR3/DDR3/DDR3L-1866
- 2 channels, 16 bits per channel
- Up to 8GB memory capacity
- Support IO retention
Internal SRAM
- 256kB at main power domain
- 384kB at CM4 (AO) power domain
  - For CM4 operation and DRAM IO retention data
AXI DMA
- Support 16 channels
- Support memory-to-memory copy
- Support hardware handshake for 8-bit NAND controller
AHB DMA
- Support 16 channels
- Support memory-to-memory copy
- Support hardware handshake for I2C and SPI controllers
Boot Devices
- eMMC device
  - Support both 1.8V and 3.3V IOVDD
  - Support SDR up to 200 MHz (only for IOVDD = 1.8V)
  - Support DDR up to 160 MHz (only for IOVDD = 1.8V)
- SD card
  - Support SD 3.0
  - Support SDR up to 200MHz
- SPI-NAND flash
  - Support SLC NAND only
  - Support up to 150Mz (only for 1.8V)
  - Support 1 or 2 planes 2k page-size dice
  - Support 1 plane 4k page-size dice
- 8-bit NAND flash
  - Support 1.8V and 3.3V
  - Support 2k/4k/8 page-size dice
  - Support synchronous mode
- SPI-NOR flash
  - Support 1/2/4-bit mode
  - Support 1.8V and 3.3V
  - Support up to 100Mz (only for 1.8V)
In-system Programming for Flash Devices
- eMMC, SPI-NAND, 8-bit NAND, and SPI-NOR
- In-system programming through USB flash drives or SD cards
Security
- Support AES-128/192/256 encryption and decryption ECB, CBC, CTR mode
- Support RSA
  - 256/512/1024/2048 bits encryption
  - modular exponentiation
- Support HASH
  - SHA-2 256/512
  - SHA-3 224/256/384/512
  - MD5
- GHASH for AES GCM mode
- Support POLY 1305
- Support Pseudo RNG
- Support ARM TZC-400
- Support secure boot
SDIO
- Support SD 3.0
- Support transfer rate up to 104MB/s (UHS-1)
Video and image codec
- H.264/MVC, VP8 and JPEG encoding
- H.264/SVC and JPEG decoding
- Individual controllable power domain.
USB3.1 (Gen. 1) Interface
- Compliant to USB 3.1 Gen1 with DRD
- Data rate up to 5Gbps
- Integrated PHY
- Support 4 sets of end-points (1 control and 3 data)
USB2.0 Interface
- Compliant to USB 2.0
- Support OTG 1.0
- Support High, Full and Low speeds
  - 4 in: 3 bulk/interrupt; 1 bulk/interrupt/isochronous
  - 4 out: bulk/interrupt; 1 bulk/interrupt/isochronous
MIPI CSI RX
- 1 MIPI-CSI2 RX 4D1C (1.5 Gbps per lane), support 4 virtual channel
- 1 MIPI-CSI2 RX 2D1C (1.5 Gbps per lane), support 2 virtual channel
- 2 MIPI-CSI2 RX 2D1C (1.5 Gbps per lane), support 2 virtual channel
  - Shared pins with CPIO (when CPIO disable, MIPI CSI RX enable)
  - 2 MIPI-CSI2 RX can be combined as 1 MIPI-CSI2 RX 4D1C, support 4 virtual channel
- Max resolution: 2688x1944
MIPI CSI/DSI TX
- One MIPI TX output for either CSI or DSI
- 4 lanes with 1.5Gbps per lane
- DSI TX resolution up to 1920x1080
- CSI TX resolution up to 3840x2880
Audio Interfaces
- One bidirectional I2S
- Two unidirectional I2S
- One 16-channel TDM
- Configurable serial clock frequency
- Support 16 bit audio format
- Support both master and slave mode
- Compliant with the IIS/PCM standard
Ethernet Controller
- Support 10/100/1000 Mbps data rate
- Support RGMII and RMII interface (1.8V)
- Support IEEE1588
ADC
- 12-bit SAR ADC with 4-channel
- Sampling rate up to 1MHz
PWM
- Support 12 bits resolution
- Support pre-scaling factor from 1 to 512
Real-Time-Clock (RTC)
- Independent Always-On power domain
- 64 bits free-run timer with 32.768 kHz clock input
SPI/I2C/UART
- Up to seven UART interfaces
- Up to six SPI interfaces (5 master, and 1 slave)
- Up to ten I2C interfaces
GPIO
- Support total 106 GPIOs
- Support software programmable driving strength for all GPIOs
- Support 60 GPIOs with 1.8V/3.3V capability
  - 3 groups in AO-power domain
  - 2 groups in main-power domain
Watchdog Timer
- 32-bit counter
- Up to 223 second
Mailbox
- For inter-processor communication between CA55 and CM4
RTC
- 32.768 kHz crystal
Semaphore
- Support read lock and write unlock
- Support 16 channels
Thermal Sensor
- Placed at between CPU and NPU
- Support two threshold temperatures (default disable)
  - Alarm threshold, interrupt to CPU
  - Shutdown threshold, for resetting all system
Multi-Function Interface (MFI) and CPIO
- Selectable proprietary CPIO and MIPI CSI-RX interfaces
- CPIO interface
  - Supports 4 data lanes for both TX and RX, provides 1.0 GiB/s bandwidth
  - Support hardware auto calibration
  - Support hardware auto and/or software programmable SWAP and CROSSOVER modes
  - Support data swap
Package: 15x15mm² FCCSP

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One of the endpoints 1, 2, 3, and 4 can be configured for Isochronous mode, while the others can be configured as Bulk or Interrupt mode.
Similarly, one of the endpoints 5, 6, 7, and 8 can be configured for Isochronous mode, while the remaining endpoints can be configured for Bulk or Interrupt mode.

Here's the breakdown:

Endpoint #	Direction	Endpoint Type
0	In / Out	Control
1	In	INT or Bulk or ISO
2	In	INT or Bulk or ISO
3	In	INT or Bulk or ISO
4	In	INT or Bulk or ISO
5	Out	INT or Bulk or ISO
6	Out	INT or Bulk or ISO
7	Out	INT or Bulk or ISO
8	Out	INT or Bulk or ISO

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The following table illustrates the pin connections for both RGMII (GMAC_PHYSEL = 0) and RMII (GMAC_PHYSEL = 1) interfaces. It's important to note that SP7350 only supports 1.8V PHY, regardless of the selected interface type.

Ball Name	RGMII	RMII
G_MX3	PHY_RXC
G_MX4	PHY_RXDV	PHY_CRS_DV
G_MX5	PHY_RXD0	PHY_RXD0
G_MX6	PHY_RXD1	PHY_RXD1
G_MX7	PHY_TXD0	PHY_TXD0
G_MX8	PHY_TXD1	PHY_TXD1
G_MX9	RGMII_MDC	RMII_MDC
G_MX10	PHY_TXC	PHY_REF_CLK
G_MX11	PHY_TXEN	PHY_TXEN
G_MX12	RGMII_MDIO	RMII_MDIO
G_MX13	PHY_RXD2
G_MX14	PHY_RXD3
G_MX15	PHY_TXD2
G_MX16	PHY_TXD3

...

Channel	Data Lane #	Virtual Channel #	Remarks
RX0	2	2	Not available in this package
RX1	2	2	Not available in this package
RX2	2	2
RX3	2	2	Not available for version A chips.
RX4	2	2
RX5	4	4

It's important to note that RX2 and RX3 share pins with the CPIO interface. Therefore, only one of RX2/RX3 or the CPIO interface can be active at any given time.

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The GPIO pins of SP7350 are organized into 10 distinct groups, each with its dedicated power supply. Refer to the table below for a breakdown of the power domains, supplying voltages, hardware pin names, and the corresponding supplying power pins for all IO pins of SP7350:

GPIO #	Power Domain	Type	Pin Name	Power-supply Pin
0 - 19	Main	1.8V GPIO	G_MX0 - G_MX19	VDDPST18_GPIO
20		1.8V/3.2V DVIO	G_MX20	VDDPST3018_DVIO_2
21 - 27			G_MX21 - G_MX27	VDDPST3018_DVIO_1
28 - 37			G_MX28 - G_MX37	VDDPST3018_DVIO_2
38 - 43		SD Card	G_MX38 - G_MX43	AVDDIO_3018_SD
44 - 49		SDIO	G_MX44 - G_MX49	AVDDIO_3018_SDIO
50 - 59	CM4 (AO)	1.8V/3.2V DVIO	AO_MX0 - AO_MX9	VDDPST3018_DVIO_AO_1
60 - 69			AO_MX10 - AO_MX19	VDDPST3018_DVIO_AO_2
70 - 79			AO_MX20 - AO_MX29	VDDPST3018_DVIO_AO_3
80 - 98		1.8V GPIO	AO_MX30 - AO_MX48	VDDPST18_GPIO_AO
99 - 105		1.8V GPIO	IV_MX0 - IV_MX6	VDDPST18_GPIO_AO

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14.2 Table of Default State of Power-on of GPIO

Ball Name	ST	DS[3:0]	SL	PE	PS	Remarks
G_MX0	1	1	1	1	1	Pull-up
G_MX1	1	1	1	1	0	Pull-down
G_MX2	1	1	1	1	0	Pull-down
G_MX3	1	1	1	1	0	Pull-down
G_MX4	1	1	1	1	1	Pull-downup
G_MX5	1	1	1	1	1	Pull-up
G_MX6	1	1	1	1	1	Pull-up
G_MX7	1	1	1	1	1	Pull-up
G_MX8	1	1	1	1	1	Pull-up
G_MX9	1	1	1	1	0	Pull-down
G_MX10	1	1	1	1	0	Pull-down
G_MX11	1	1	1	1	1	Pull-up
G_MX12	1	1	1	1	1	Pull-up
G_MX13	1	1	1	1	1	Pull-up
G_MX14	1	1	1	1	1	Pull-up
G_MX15	1	1	1	1	1	Pull-up
G_MX16	1	1	1	1	1	Pull-up
G_MX17	1	1	1	1	1	Pull-up
G_MX18	1	1	1	1	1	Pull-up
G_MX19	1	1	1	1	1	Pull-up
AO_MX30	1	1	1	1	1	Pull-up
AO_MX31	1	1	1	1	1	Pull-up
AO_MX32	1	1	1	1	1	Pull-up
AO_MX33	1	1	1	1	1	Pull-up
AO_MX34	1	1	1	1	1	Pull-up
AO_MX35	1	1	1	1	1	Pull-up
AO_MX36	1	1	1	1	1	Pull-up
AO_MX37	1	1	1	1	0	Pull-down
AO_MX38	1	1	1	1	1	Pull-up
AO_MX39	1	1	1	1	0	Pull-down
AO_MX40	1	1	1	1	1	Pull-up
AO_MX41	1	1	1	1	0	Pull-down
AO_MX42	1	1	1	1	1	Pull-up
AO_MX43	1	1	1	1	0	Pull-down
AO_MX44	1	1	1	1	0	Pull-down
AO_MX45	1	1	1	1	0	Pull-down
AO_MX46	1	1	1	1	1	Pull-up
AO_MX47	1	1	1	1	1	Pull-up
AO_MX48	1	1	1	1	1	Pull-up
IV_MX0	1	1	1	1	1	Pull-up
IV_MX1	1	1	1	1	1	Pull-up
IV_MX2	1	1	1	1	1	Pull-up
IV_MX3	1	1	1	1	1	Pull-up
IV_MX4	1	1	1	1	1	Pull-up
IV_MX5	1	1	1	1	1	Pull-up
IV_MX6	1	1	1	1	1	Pull-up

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14.3 Table of Default State of Power-on of DVIO

Ball Name	ST	DS[3:0]	PU	PD	Remarks
G_MX20	1	3	1	0	Pull-up
G_MX21	1	3	1	0	Pull-up
G_MX22	1	3	0	1	Pull-down
G_MX23	1	3	1	0	Pull-up
G_MX24	1	3	1	0	Pull-up
G_MX25	1	3	1	0	Pull-up
G_MX26	1	3	1	0	Pull-up
G_MX27	1	3	0	1	Pull-down
G_MX28	1	3	1	0	Pull-up
G_MX29	1	3	1	0	Pull-up
G_MX30	1	3	1	0	Pull-up
G_MX31	1	3	1	0	Pull-up
G_MX32	1	3	0	1	Pull-down
G_MX33	1	3	1	0	Pull-up
G_MX34	1	3	1	0	Pull-up
G_MX35	1	3	1	0	Pull-up
G_MX36	1	3	1	0	Pull-up
G_MX37	1	3	1	0	Pull-up
G_MX38	1	3	0	0	Hi-Z
G_MX39	1	3	0	0	Hi--Z
G_MX40	1	3	0	0	Hi-Z
G_MX41	1	3	0	0	Hi-Z
G_MX42	1	3	0	0	Hi-Z
G_MX43	1	3	0	0	Hi-Z
G_MX44	1	3	0	0	Hi-Z
G_MX45	1	3	0	0	Hi-Z
G_MX46	1	3	0	0	Hi-Z
G_MX47	1	3	0	0	Hi-Z
G_MX48	1	3	0	0	Hi-Z
G_MX49	1	3	0	0	Hi-Z
AO_MX0	1	3	1	0	Pull-up
AO_MX1	1	3	1	0	Pull-up
AO_MX2	1	3	1	0	Pull-up
AO_MX3	1	3	1	0	Pull-up
AO_MX4	1	3	1	0	Pull-up
AO_MX5	1	3	1	0	Pull-up
AO_MX6	1	3	1	0	Pull-up
AO_MX7	1	3	1	0	Pull-up
AO_MX8	1	3	1	0	Pull-up
AO_MX9	1	3	1	0	Pull-up
AO_MX10	1	3	1	0	Pull-up
AO_MX11	1	3	1	0	Pull-up
AO_MX12	1	3	1	0	Pull-up
AO_MX13	1	3	1	0	Pull-up
AO_MX14	1	3	1	0	Pull-up
AO_MX15	1	3	1	0	Pull-up
AO_MX16	1	3	1	0	Pull-up
AO_MX17	1	3	0	1	Pull-down
AO_MX18	1	3	0	1	Pull-down
AO_MX19	1	3	1	0	Pull-up
AO_MX20	1	3	0	1	Pull-down
AO_MX21	1	3	1	0	Pull-up
AO_MX22	1	3	0	1	Pull-down
AO_MX23	1	3	0	1	Pull-down
AO_MX24	1	3	0	1	Pull-down
AO_MX25	1	3	0	1	Pull-down
AO_MX26	1	3	0	1	Pull-down
AO_MX27	1	3	1	0	Pull-up
AO_MX28	1	3	0	1	Pull-down
AO_MX29	1	3	1	0	Pull-up

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The SP7350 provides eight external interrupt inputs from configured GPIO pins. The table below lists the external interrupts 0 to 7 and the corresponding pins each interrupt can be configured with:

Ball Name	GPIO_INT0	GPIO_INT1	GPIO_INT2	GPIO_INT3	GPIO_INT4	GPIO_INT5	GPIO_INT6	GPIO_INT7
G_MX1	X1	X1
G_MX2	X2	X2
G_MX3	X3	X3
G_MX4	X4	X4
G_MX5	X5	X5	X1	X1
G_MX6	X6	X6	X2	X2
G_MX7			X3	X3	X1	X1
G_MX8			X4	X4	X2	X2
G_MX9			X5	X5	X3	X3	X1	X1
G_MX10			X6	X6	X4	X4	X2	X2
G_MX11			X7	X7	X5	X5	X3	X3
G_MX12					X6	X6	X4	X4
G_MX13	X7	X7			X7	X7	X5	X5
G_MX14	X8	X8					X6	X6
G_MX15	X9	X9					X7	X7
G_MX16			X8	X8			X8	X8
G_MX17			X9	X9			X9	X9
G_MX18					X8	X8	X10	X10
G_MX19					X9	X9	X11	X11

...

Many GPIO (General Purpose Input/Output) pins offer alternative functions, providing versatility in their usage. These alternatives may consist of one, two, or more sets of output pins. For instance, I2C0 can be configured to output signals either at AO_MX4 (I2C0_CLK) and AO_MX5 (I2C0_DATA), or at AO_MX18 (I2C0_CLK) and AO_MX19 (I2C0_DATA). Below is a comprehensive table listing the alternatives for all GPIO pins:

Power Supply	Ball Name	GPIO	Function 1	Function 2	Function 3	Function 4
VDDPST18_GPIO	G_MX0	GPIO0	GMAC_LPI_O
	G_MX1	GPIO1	CLKMCU (X1)	I2C6_CLK (X2)
	G_MX2	GPIO2	CLKWIFI (X1)	I2C6_DATA (X2)
	G_MX3	GPIO3	PHY_RXC	I2C7_CLK (X2)
	G_MX4	GPIO4	PHY_RXDV	I2C7_DATA (X2)
	G_MX5	GPIO5	PHY_RXD[0]
	G_MX6	GPIO6	PHY_RXD[1]
	G_MX7	GPIO7	PHY_TXD[0]	UA3_TXD (X2)
	G_MX8	GPIO8	PHY_TXD[1]	UA3_RXD (X2)
	G_MX9	GPIO9	RGMII_MDC	I2C8_CLK (X2)	SPI0_RXD (X2)
	G_MX10	GPIO10	PHY_TXC	I2C8_DATA (X2)	SPI0_SS (X2)
	G_MX11	GPIO11	PHY_TXEN	I2C9_CLK (X2)	SPI0_TXD (X2)
	G_MX12	GPIO12	RGMII_MDIO	I2C9_DATA (X2)	SPI0_CLK (X2)
	G_MX13	GPIO13	PHY_RXD[2]	CLKGENPHY (X1)	UADBG_TXD	CA55_TRSTN
	G_MX14	GPIO14	PHY_RXD[3]	SPI1_RXD (X2)	UADBG_RXD	CA55_TMS
	G_MX15	GPIO15	PHY_TXD[2]	SPI1_SS (X2)		CA55_TCK
	G_MX16	GPIO16	PHY_TXD[3]	SPI1_TXD (X2)		CA55_TDI
	G_MX17	GPIO17		SPI1_CLK (X2)		CA55_TDO
	G_MX18	GPIO18	UPHY0_DRV5V_ENB
	G_MX19	GPIO19	UPHY0_ID
DVIO_2	G_MX20	GPIO20	CARD0_SD_D[5]		PNAND_BUSY_B
DVIO_1	G_MX21	GPIO21	SPI_NOR_D[2]	SPI_NAND_D[2] (X2)	PNAND_WP_B
	G_MX22	GPIO22	SPI_NOR_CLK	SPI_NAND_CLK (X2)	PNAND_DQS_CLK
	G_MX23	GPIO23	SPI_NOR_D[1]	SPI_NAND_D[1] (X2)	PNAND_CE_B
	G_MX24	GPIO24	SPI_NOR_D[3]	SPI_NAND_D[3] (X2)	PNAND_RE_B
	G_MX25	GPIO25	SPI_NOR_CS_B	SPI_NAND_CS_B (X2)	PNAND_CLE
	G_MX26	GPIO26	SPI_NOR_D[0]	SPI_NAND_D[0] (X2)	PNAND_ALE
	G_MX27	GPIO27	CLKGNCMA (X1)		PNAND_WE_B
DVIO_2	G_MX28	GPIO28	CARD0_SD_D[3]		PNAND_DATA[0]
	G_MX29	GPIO29	CARD0_SD_D[4]		PNAND_DATA[1]
	G_MX30	GPIO30	CARD0_SD_D[0]	SPI_NAND_D[0] (X1)	PNAND_DATA[2]
	G_MX31	GPIO31	CARD0_SD_D[1]	SPI_NAND_D[2] (X1)	PNAND_DATA[3]
	G_MX32	GPIO32	CARD0_SD_CLK	SPI_NAND_CLK (X1)	PNAND_DQS
	G_MX33	GPIO33	CARD0_SD_D[2]	SPI_NAND_D[1] (X1)	PNAND_DATA[4]
	G_MX34	GPIO34	CARD0_SD_D[7]	SPI_NAND_D[3] (X1)	PNAND_DATA[5]
	G_MX35	GPIO35	CARD0_SD_D[6]	SPI_NAND_CS_B (X1)	PNAND_DATA[6]
	G_MX36	GPIO36	CARD0_SD_CMD		PNAND_DATA[7]
	G_MX37	GPIO37	CARD0_SD_DS
SD CARD	G_MX38	GPIO38	CARD1_SD_D[1]
	G_MX39	GPIO39	CARD1_SD_D[0]
	G_MX40	GPIO40	CARD1_SD_CLK
	G_MX41	GPIO41	CARD1_SD_CMD
	G_MX42	GPIO42	CARD1_SD_D[3]
	G_MX43	GPIO43	CARD1_SD_D[2]
SDIO	G_MX44	GPIO44	CARD2_SD_D[1]	SPI3_RXD (X1)
	G_MX45	GPIO45	CARD2_SD_D[0]	SPI3_SS (X1)
	G_MX46	GPIO46	CARD2_SD_CLK	SPI3_TXD (X1)
	G_MX47	GPIO47	CARD2_SD_CMD	SPI3_CLK (X1)
	G_MX48	GPIO48	CARD2_SD_D[3]	UA6_TXD (X2)
	G_MX49	GPIO49	CARD2_SD_D[2]	UA6_RXD (X2)
DVIO_AO_1	AO_MX0	GPIO50	UA0_TXD (X1)
	AO_MX1	GPIO51	UA0_RXD (X1)
	AO_MX2	GPIO52	UA1_TXD (X1)	CLKMCU (X2)	SPI3_RXD (X2)
	AO_MX3	GPIO53	UA1_RXD (X1)	CLKGNCMA (X2)	SPI3_SS (X2)
	AO_MX4	GPIO54	UA1_RTS_B (X1)	I2C0_CLK (X2)	SPI3_TXD (X2)
	AO_MX5	GPIO55	UA1_CTS_B (X1)	I2C0_DATA (X2)	SPI3_CLK (X2)
	AO_MX6	GPIO56	UA2_TXD (X1)	I2C2_CLK (X2)	AU1_BCK (X1)
	AO_MX7	GPIO57	UA2_RXD (X1)	I2C2_DATA (X2)	AU1_LRCK (X1)
	AO_MX8	GPIO58	UA2_RTS_B (X1)	PWM_CH0 (X2)	AU1_DATA0 (X1)	ADC1_DATA0 (X1)
	AO_MX9	GPIO59	UA2_CTS_B (X1)	PWM_CH1 (X2)
DVIO_AO_2	AO_MX10	GPIO60	PWM_CH2 (X1)
	AO_MX11	GPIO61	PWM_CH3 (X1)
	AO_MX12	GPIO62	UA3_TXD (X1)	CLKWIFI (X2)
	AO_MX13	GPIO63	UA3_RXD (X1)	CLKRTC (X2)
	AO_MX14	GPIO64	SPI0_RXD (X1)	UA1_TXD (X2)
	AO_MX15	GPIO65	SPI0_SS (X1)	UA1_RXD (X2)
	AO_MX16	GPIO66	SPI0_TXD (X1)	UA1_RTS_B (X2)
	AO_MX17	GPIO67	SPI0_CLK (X1)	UA1_CTS_B (X2)
	AO_MX18	GPIO68	I2C0_CLK (X1)	UA0_TXD (X2)
	AO_MX19	GPIO69	I2C0_DATA (X1)	UA0_RXD (X2)
DVIO_AO_3	AO_MX20	GPIO70	I2C1_CLK (X1)
	AO_MX21	GPIO71	I2C1_DATA (X1)		EXT_DAC_XCK1
	AO_MX22	GPIO72	SPI4_RXD (X1)	SPI5_RXD (X2)	AU_BCK (X2)
	AO_MX23	GPIO73	SPI4_SS (X1)	SPI5_SS (X2)	AU_LRCK (X2)
	AO_MX24	GPIO74	SPI4_TXD (X1)	SPI5_TXD (X2)	ADC_DATA0 (X2)
	AO_MX25	GPIO75	SPI4_CLK (X1)	SPI5_CLK (X2)	AU_DATA0 (X2)
	AO_MX26	GPIO76	I2C2_CLK (X1)	UA2_TXD (X2)
	AO_MX27	GPIO77	I2C2_DATA (X1)	UA2_RXD (X2)
	AO_MX28	GPIO78	PWM_CH0 (X1)	UA2_RTS_B (X2)
	AO_MX29	GPIO79	PWM_CH1 (X1)	UA2_CTS_B (X2)
GP1	AO_MX30	GPIO80	UA6_TXD (X1)	SPI1_RXD (X1)	AU2_BCK (X1)
	AO_MX31	GPIO81	UA6_RXD (X1)	SPI1_SS (X1)	AU2_LRCK (X1)
	AO_MX32	GPIO82	UA7_TXD (X1)	SPI1_TXD (X1)	AU2_DATA0 (X1)	ADC2_DATA0 (X1)
	AO_MX33	GPIO83	UA7_RXD (X1)	SPI1_CLK (X1)	EXT_DAC_XCK_TM	CLKGENPHY (X2)
	AO_MX34	GPIO84	I2C6_CLK (X1)
	AO_MX35	GPIO85	I2C6_DATA (X1)
	AO_MX36	GPIO86	I2C7_CLK (X1)
	AO_MX37	GPIO87	I2C7_DATA (X1)
	AO_MX38	GPIO88	I2C3_CLK (X1)	SPI2_RXD (X1)	CM4_TRSTN
	AO_MX39	GPIO89	I2C3_DATA (X1)	SPI2_SS (X1)	CM4_TMSSWD
	AO_MX40	GPIO90	I2C4_CLK (X1)	SPI2_TXD (X1)	CM4_SWCLKTCK
	AO_MX41	GPIO91	I2C4_DATA (X1)	SPI2_CLK (X1)	CM4_SWDO
	AO_MX42	GPIO92	I2C5_CLK (X1)	PWM_CH2 (X2)	CM4_TDI
	AO_MX43	GPIO93	I2C5_DATA (X1)	PWM_CH3 (X2)	CM4_TDO	TDMTX_XCK_TM
	AO_MX44	GPIO94	I2C8_CLK (X1)	SPI5_RXD (X1)	AU_BCK (X1)	TDMTX_BCK
	AO_MX45	GPIO95	I2C8_DATA (X1)	SPI5_SS (X1)	AU_LRCK (X1)	TDMTX_SYNC
	AO_MX46	GPIO96		SPI5_TXD (X1)	ADC_DATA0 (X1_	TDMTX_DATA16
	AO_MX47	GPIO97	I2C9_CLK (X1)	SPI5_CLK (X1)	AU_DATA0 (X1)	TDMTX_DATA16_O
	AO_MX48	GPIO98	I2C9_DATA (X1)
GP2	IV_MX0	GPIO99
	IV_MX1	GPIO100
	IV_MX2	GPIO101
	IV_MX3	GPIO102
	IV_MX4	GPIO103
	IV_MX5	GPIO104
	IV_MX6	GPIO105

...

15 Recommended Operating Conditions

15.1 Power Supply

Parameter Description	Power Name	Min.	Typ.	Max.	Unit	Comments
Power for PLL	AVDD08_PLLC AVDD08_PLLD AVDD08_PLLS	0.76	0.80	0.84	V
Power for SDIO	AVDD30_SD_SDIO	3.04	3.20	3.36	V
Power for DDRPHY PLL	BP_VAA	1.71	1.80	1.89	V
Power for DRAM controller	DRAM_VDD	0.76	0.80	0.84	V
Power for DRAM IO pins	DRAM_VDDQ	1.06 1.14 1.14 1.29 1.43	1.10 1.20 1.20 1.35 1.50	1.15 1.26 1.26 1.41 1.57	V V V V V	LPDDR4 DDR4 LPDDR3 DDR3L DDR3
Power for CPIO	CPIOR_AVDD08	0.76	0.80	0.84	V
Power for CPIO	CPIOR_AVDD10	1.71	1.80	1.89	V
Power for MIPI RX	MIPI4_AVDD08 MIPI5_AVDD08	0.76	0.80	0.84	V
Power for MIPI RX	MIPI4_AVDD18 MIPI5_AVDD18	1.71	1.80	1.89	V
Power for MIPI TX	MIPITX_AVDD18	1.71	1.80	1.89	V
Power for ADC	SAR12B_AVDD18	1.71	1.80	1.89	V
Power for thermal sensor	TML_AVDD18	1.17	1.80	1.89	V
Power for USB2	USB20_AVDD18	1.71	1.80	1.89	V
Power for USB2	USB20_AVDD33	3.14	3.30	3.46	V
Power for USB3	USB3_AVDD08	0.76	0.80	0.84	V
Power for USB3	USB3_DVDD08	0.76	0.80	0.84	V
Power for USB3	USB3_VDD33	3.14	3.30	3.46	V
Power for digital core	VDD	0.76	0.80	0.84	V
Power for Always-On digital core	VDD_AO	0.76	0.80	0.84	V
Power for video codec	VDD_BLOCKA	0.76	0.80	0.84	V
Power for CPU	VDD_CA55	0.80	0.84	0.88
Power for NPU	VDD_NPU	0.80	0.84	0.88	V
Power for GPIO	VDDPST18_GPIO_0 VDDPST18_GPIO_1 VDDPST18_GPIO_AO VDDPST18_GPIO_RTC	1.71	1.80	1.89	V
Power for Dual Voltage GPIO	VDDPST3018_DVIO_1 VDDPST3018_DVIO_2 VDDPST3018_DVIO_AO_1 VDDPST3018_DVIO_AO_2 VDDPST3018_DVIO_AO_3	32.0485 / 1.71	3.20 / 1.80	3.36 / 1.89	V	Support two voltage levels
Power for crystal	X32K_AVDD18	1.71	1.80	1.89	V

...

16.1 Absolute Maximum Ratings

Symbol	Parameter	Value	Unit
V_DD33	Supply voltage 3.3V	3.63	V
V_{DD_CA55}	Supply voltage 0.85V for CA55	1.05	V
V_{DD_NPU}	Supply voltage 0.85V for NPU	0.89	V
V_DD08	Supply voltage 0.8V for DRAM, video codec, chip top system, CM4 (AO) and RTC power domain, and other 0.8V for analog core power	0.88	V
V_DD18	Supply voltage 1.8V	1.98	V
V_DD11	Supply voltage 1.1V	1.17	V
V_DD30	Supply voltage 3.0V	3.46465	V
V_O33	Output voltage 3.3V	3.63	V
V_O18	Output voltage 1.8V	1.98	V
V_I33	3.3V input voltage (3.3V tolerant inputs)	-0.3 ~ V_DD33+0.3	V
V_I18	1.8V input voltage	-0.3 ~ V_DD18+0.3	V
T_J	Junction temperature	120	°C
T_STG	Storage temperature	-40 ~ 150	°C

...

16.4.8 USB2.0 PHY Specification

16.4.8.1 Transmitter

Symbol	Parameters	Conditions	Min.	Typ.	Max.	Unit
V_IH	High input level	Classic (FS)	2.0			V
V_IL	Low input level	Classic (FS)			0.8	V
R_OUT	Output resistance	Classic mode (Vout= 0 or 3.3V)	40.5	45	49.5	Ω
R_OUT	Output resistance	HS mode (Vout = 0 to 800mV)	40.5	45	49.5	Ω
C_OUT	Output capacitance	Seen from D+ or D-		3.5	4.5	pF
V_M	Output common mode voltage	Classic (FS) mode	1.485	1.65	1.8	V
V_M	Output common mode voltage	HS mode	0.18	0.2	0.22	V
V_OH	Differential output signal high	Classic (FS); Io = 0mA	2.97	3.3	3.63	V
		Classic (FS); Io = 6mA	2.71	3.05	3.38	V
		HS mode; Io = 0mA	360	400	440	mV
V_OL	Differential output signal low	Classic (FS); Io = 0mA	0	-	0.3	V
		Classic (FS); Io = 6mA	-0.166	-0.155	-0.144	V
		HS mode; Io = 0mA	-10	0	10	mV

...

16.4.9 USB3.1 PHY Specification

16.4.9.1 Transmitter

Symbol	Parameters	Min.	Typ.	Max.	Unit
V_TX-DIFF-PP	Differential TX_P-P voltage swing	0.8	1.0	1.2	V
V_{TX-DIFF-PP-LOW}	Low-power differential TX_P-P voltage swing	0.4	N/A	1.2	V
V_TX-DE-RATIO	TX de-emphasis	0.4	N/A	1.2	V
R_TX-DIFF-DC	DC differential impedance	72	N/A	120	Ω
V_{TX-RCV-DETECT}	The amount of voltage change allowed during receiver detection	N/A	N/A	0.6	V
C_AC-COUPLING	AC Coupling Capacitor	75	N/A	265	nF
V_{Tx-CM-IDLE-DELTA}	Transmitter idle common-mode voltage change	600	N/A	-600	mV
T_{CDR_SLEW_MAX}	Maximum slew-rate	N/A	N/A	10	mS/S

16.4.9.2 Receiver

Symbol	Parameters	Min.	Typ.	Max.	Unit
R_RX-DC	Receiver DC common mode impedance	18	N/A	30	Ω
R_RX-DIFF-DC	DC differential impedance	72	N/A	120	Ω
V_{RX-LFPS-DET-DIFFp-p}	LFPS detect threshold	100	N/A	300	mV
C_{RX-AC-COUPLING}	AC coupling capacitor	297	N/A	363	nF
V_{RX-DIFF-PP-POST-EQ}	Differential RX peak-to-peak voltage	30	N/A	N/A	mV
C_RX-PARASITIC	RX input capacitance for return loss	N/A	N/A	1.1	pF
V_{RX- CM-DC-ACTIVEIDLE-} _{DELTA_P}	RX AC common mode voltage during the U1 to U0 transition	N/A	N/A	200	mV peak

16.4.10 MIPI CSI RX PHY Specification

Symbol	Parameters	Conditions	Min.	Typ.	Max.	Unit
V_IH	High input level	Classic (FS)	2.0			V
V_IL	Low input level	Classic (FS)			0.8	V
R_OUT	Output resistance	Classic mode (Vout = 0 or 3.3V)	40.5	45	49.5	Ω
R_OUT	Output resistance	HS mode (Vout = 0 to 800mV)	40.5	45	49.5	Ω
C_OUT	Output capacitance	Seen from D+ or D-		3.5	4.5	pF
V_M	Output common mode voltage	Classic (FS) mode	1.45	1.65	1.85	V
V_M	Output common mode voltage	HS mode	0.175	0.2	0.225	V
V_OH	Differential output signal high	Classic (FS); Io = 0mA	2.97	3.3	3.63	V
		Classic (FS); Io = 6mA	2.91	3	3.08	V
		HS mode; Io = 0mA	360	400	440	mV
V_OL	Differential output signal low	Classic (FS); Io = 0mA	-0.33	0	0.33	V
		Classic (FS); Io = 6mA	-0.42	-0.34	-0.31	V
		HS mode; Io = 0mA	-40	0	40	mV

...

16.4.11.1 MIPI CSI RX High-Speed Mode

Symbol	Parameters	Min.	Typ.	Max.	Unit
V_CMRX(DC)	Common-mode voltage HS receive mode	70		330^1,2	mV
V_IDTH	Differential input high threshold			70³	mV
V_IDTH	Differential input high threshold			40⁴	mV
V_IDTL	Differential input low threshold	-70³			mV
V_IDTL	Differential input low threshold	-40⁴			mV
V_IHHS	Single-ended input high voltage			460¹	mV
V_ILHS	Single-ended input low voltage	-40¹			mV
F_CLK	Operating frequency	80		1250	MHz
V_TERM-EN	Single-ended threshold for HS termination enable			450	mV
Z_ID	Differential input impedance	80	100	125	Ω

...

16.4.12 Driving-strength Table of GPIO

DS[3:0]	Source Current (mA)			Sink Current (mA)
DS[3:0]	Min.	Typ.	Max.	Min.	Typ.	Max.
0	0.8	1.1	1.5	0.7	1.1	1.6
1	1.1	1.6	2.2	1.1	1.7	2.3
2	2.3	3.3	4.3	2.1	3.3	4.7
3	3.4	4.9	6.5	3.2	5.0	7.0
4	4.5	6.6	8.6	4.2	6.6	9.3
5	5.7	8.2	10.8	5.3	8.3	11.7
6	6.8	9.9	13.0	6.3	9.9	13.9
7	7.9	11.5	15.1	7.4	11.6	16.2
8	9.0	13.1	17.2	8.4	13.2	18.5
9	10.2	14.8	19.4	9.4	14.8	20.8
10	11.3	16.4	21.6	10.5	16.5	23.1
11	12.4	18.1	23.7	11.5	18.1	25.4
12	13.5	19.6	25.8	12.6	19.7	27.6
13	14.7	21.3	28.0	13.6	21.4	29.9
14	15.8	22.9	30.1	14.6	23.0	32.1
15	16.9	24.6	32.3	15.7	24.6	34.4

16.4.13 Driving-strength Table of DVIO

DS[3:0]	Source Current (mA)			Sink Current (mA)
DS[3:0]	Min.	Typ.	Max.	Min.	Typ.	Max.
0	1.9	5.1	9.9	4.0	6.2	8.6
1	2.8	7.6	14.8	6.0	9.3	12.9
2	3.7	10.1	19.8	8.1	12.5	17.1
3	4.6	12.6	24.7	10.1	15.6	21.4
4	5.6	15.2	29.7	12.1	18.7	25.7
5	6.5	17.7	34.6	14.1	21.8	29.9
6	7.4	20.2	39.5	16.1	24.9	34.2
7	8.3	22.7	44.3	18.1	27.9	38.4
8	9.3	25.2	49.3	20.1	31.0	42.7
9	10.2	27.7	54.2	22.1	34.1	46.9
10	11.1	30.3	59.1	24.1	37.2	51.1
11	12.0	32.8	64.0	26.1	40.3	55.3
12	13.0	35.3	68.9	28.1	43.4	59.5
13	13.9	37.8	73.7	30.1	46.4	63.8
14	14.8	40.3	78.6	32.1	49.5	67.9
15	15.7	42.7	83.4	34.1	52.6	72.1

...

16.5.1.2 SPI-NAND Timing Parameters (3.3V)

Symbol	Parameters	Min.	Typ.	Max.	Unit
_tCK	Clock cycle for SPI flash	9.76	9.76		nS
_tCKH	Clock high-level width for SPI flash	4.88	4.88		nS
_tCKL	Clock low-level width for SPI flash	4.88	4.88		nS
_tSLCH	SPI_NAND_CEN active setup time relative to SPI_NAND_CLK	19.5			nS
_tDDLY	Write data output delay from SPI_CLK falling edge	0	0		nS
_tRDVLD	Read data valid time			8	nS

16.5.1.3 SPI-NAND Timing Parameters (1.8V)

Symbol	Parameters	Min.	Typ.	Max.	Unit
_tCK	Clock cycle for SPI flash	6.5	7.5		nS
_tCKH	Clock high-level width for SPI flash	3.25	3.75		nS
_tCKL	Clock low-level width for SPI flash	3.25	3.75		nS
_tSLCH	SPI_NAND_CEN active setup time relative to SPI_NAND_CLK	13			nS
_tDDLY	Write data output delay from SPI_CLK Falling edge	0	0		nS
_tRDVLD	Read data valid time			8	nS

...

16.5.2.2 I2S Master AC Timing Parameters

Symbol	Parameters	Min.	Max.	Unit
T_LR = 1/F_S	LRCK period (1/F_S)	5.208	31.25	µs
F_S	LRCK frequency	32	192	kHz
T_BCK = 1/ F_BCK	BCK period	81.38	488.28	nS
F_BCK	BCK frequency	2.048	12.288	MHz
T_BCKL	BCK pulse width low		244	nS
T_BCKH	BCK pulse width high		244	nS
T_LRB	LRCK edge to BCK rising edge	10		nS
T_DINS	I2S_DIN set-up time	10		nS
T_DINH	I2S_DIN hold time	10		nS
T_DOUTS	I2S_DOUT set-up time	10		nS
T_DOUTH	I2S_DOUT hold time	10		nS
T_smd	XCK to BCK active edge delay	0	15	nS
T_imd	XCK to LRCK delay	0	15	nS

...

16.5.4.1 NOR NAND Timing Parameters (3.3/1.8V)

Symbol	Parameters	Min.	Typ.	Max.	Unit
_tCK	Clock cycle for SPI NOR Flash	9.76	9.76		nS
_tCKH	Clock high-level width for SPI NOR Flash	4.88	4.88		nS
_tCKL	Clock low-level width for SPI NOR Flash	4.88	4.88		nS
_tSLCH	SPI_NOR_CEN active setup time relative to SPI_NOR_CLK	19.5			nS
_tDDLY	Write data output delay from SPI_NOR_CLK falling edge	0	2.50		nS
_tRDVLD	Read data valid time			8	nS

...

16.5.5.2 SD/SDIO (High-Speed) Timing Parameters

Symbol	Parameters	Conditions	Min.	Typ.	Max.	Unit
F_ck2	Clock frequency data transfer mode	High Speed	0		50	MHz
T_WL2	Clock low time	High Speed		12.1		nS
T_WH2	Clock high time	High Speed		9.0		nS
T_TLH2	Clock rise time	High Speed		1.5		nS
T_THL2	Clock fall time	High Speed		1.6		nS
T_SU2	Input set-up time	High Speed		14.7		nS
T_IH2	Input hold time	High Speed		4.3		nS
T_ODLY	Output delay time during data transfer mode	High Speed		9.3		nS
T_OH	Output hold time	High Speed		9.5		nS

...

16.5.5.3 SD/SDIO (SDR Mode) Timing Parameters

Symbol	Parameters	Conditions	Min.	Typ.	Max.	Unit
F_ck2	Clock frequency data transfer mode	SDR mode	0		200	MHz
	Clock duty	SDR mode	30	48	70	nS
T_TLH2	Clock rise time	SDR mode		0.8		nS
T_THL2	Clock fall time	SDR mode		0.65		nS
T_SU2	Input set-up time	SDR mode		0.78		nS
T_IH2	Input hold time	SDR mode		4.05		nS
T_ODLY	Output delay time during data transfer mode	SDR mode		3.18		nS
T_OH	Output hold time	SDR mode		3.775		nS

...

16.5.5.5 SD/SDIO (DDR mode) Timing Diagram

Symbol	Parameters	Conditions	Min.	Typ.	Max.	Unit
	Clock duty cycle	High Speed (DDR)	45	49.6	55	%
T_TLH	Clock rise time	High Speed (DDR)		0.84		nS
T_THL	Clock fall time	High Speed (DDR)		0.64		nS
T_ISU	Input set-up time (CMD, SDR)	High Speed (DDR)		14.76		nS
T_IH	Input hold time (CMD, SDR)	High Speed (DDR)		4.52		nS
T_ODLY	Output delay time during data transfer (CMD, SDR)	High Speed (DDR)		2.7		nS
T_oH	Output hold time (CMD, SDR)	High Speed (DDR)		2.2		nS
T_ISUddr	Input set-up time (DAT, DDR)	High Speed (DDR)		4.8		nS
T_IHddr	Input hold time (DAT, DDR)	High Speed (DDR)		4.24		nS
T_ODLYddr	Output delay time during data transfer (DAT, DDR)	High Speed (DDR)		7.6		nS

...

16.5.6.2 eMMC (SDR Mode) Timing Parameters

Symbol	Parameters	Conditions	Min.	Typ.	Max.	Unit
F_CK2	Clock frequency data transfer mode	SDR mode	0		50	MHz
	Clock duty	SDR mode	30	50.5	70	nS
T_TLH2	Clock rise time	SDR mode		0.8		nS
T_THL2	Clock fall time	SDR mode		0.7		nS
T_SU2	Input set-up time	SDR mode		13.4		nS
T_IH2	Input hold time	SDR mode		5.5		nS
T_ODLY	Output delay time during data transfer mode	SDR mode		9.6		nS
T_OH	Output hold time	SDR mode		8.6		nS

...

16.5.6.4 eMMC (DDR mode) Timing Parameters

Symbol	Parameters	Conditions	Min.	Typ.	Max.	Unit
	Clock duty cycle	High Speed (DDR)	45	50.7	55	%
T_WL	Clock low time	High Speed (DDR)		9.4		nS
T_WH	Clock High time	High Speed (DDR)		9.2		nS
T_TLH	Clock rise time	High Speed (DDR)		0.8		nS
T_THL	Clock fall time	High Speed (DDR)		0.7		nS
T_ISU	Input set-up time (CMD, SDR)	High Speed (DDR)		14.2		nS
T_IH	Input hold time (CMD, SDR)	High Speed (DDR)		4.2		nS
T_ODLY	Output delay time during data transfer (CMD, SDR)	High Speed (DDR)		9.1		nS
T_oH	Output hold time (CMD, SDR)	High Speed (DDR)		8.3		nS
t_RISE	Signal rise time (CMD, SDR)	High Speed (DDR)		0.8		nS
T_fall	Signal fall time (CMD, SDR)	High Speed (DDR)		0.8		nS
T_ISUddr	Input set-up time (DAT, DDR)	High Speed (DDR)		4.5		nS
T_IHddr	Input hold time (DAT, DDR)	High Speed (DDR)		4.5		nS
T_ODLYddr	Output delay time during Data Transfer (DAT, DDR)	High Speed (DDR)	4.5		5.8	nS
t_RISE	Signal rise time (DAT 0-7)	High Speed (DDR)		1.0		nS
t_FALL	Signal fall time (DAT 0-7)	High Speed (DDR)		0.9		nS

...

16.5.7.8 8-bit NAND (DDR Mode) Timing Parameters — 1

Symbol	Parameters	Conditions	Min.	Typ.	Max.	Unit
T_CH	CE# hold	DDR mode	3	5.30		nS
T_CAD	Command, address data delay	DDR mode	25	330		nS
T_CALH	ALE, CLE, W/R# hold	DDR mode	3	4.60		nS
T_CALS	ALE, CLE, W/R# setup	DDR mode	3	4.88		nS
T_CAH	DQ hold – command, address	DDR mode	3	4.87		nS
T_CK	Average CLK cycle time	DDR mode	15			nS
T_CKL	CLK cycle high	DDR mode	0.43		0.57	T_CK
T_CKH	CLK cycle low	DDR mode	0.43		0.57	T_CK

...

16.5.8.2 SPI MOSI Timing Parameters

Symbol	Parameters	Min.	Typ.	Max.	Unit
T_LS1	Time from CSB (10%) to SCK (90%).		60.21		nS
T_LS2	Time from SCK (10%) to CSB 90%).		39.47		nS
T_CL	SCK low time.	20	19.90	81918	nS
T_CH	SCK high time.	20	20.11	81918	nS
T_SET	Time from changing MOSI (10%, 90%) to SCK (90%).	5	21.97		nS
T_HOL	Time from SCK (90%) to changing MOSI (10%, 90%).	15	18.32		nS
T_LH	Time between SPI cycles, CSB at high level (90%).	158			nS

...

16.5.9.2 I2C Timing parameters for Fast and Standard Mode

Symbol	Parameters	Standard Mode	Fast Mode	Unit
		VDD = 1.8V
		MS = 1
		100kHz	400kHz
F_SCL	SCL clock frequency	99.41	396.8	kHz
T_LOW	Low period of the SCL clock	5.318	1.548	µS
T_HIGH	High period of the SCL clock	4.680	0.9117	µS
T_HD;STA	Hold time (repeated) START condition	4.718	0.9482	µS
T_SU;STA	Set-up time for a repeated START condition	5.390	1.020	µS
T_HD;DAT	Data hold time	2.016	0.00681	µS
T_SU;DAT	Data set-up time	3246.0	1454.0	nS
T_r	Rise time of both SDA and SCL signals	CLK = 54.50 DATA = 54.67	CLK = 56.00 DATA = 52.20	nS
T_f	Fall time of both SDA and SCL signals	CLK = 2.182 DATA = 2.628	CLK = 2.267 DATA = 2.328	nS
T_SU;STO	Set-up time for STOP condition	4.808	1.040	µS
T_VD;DAT	Data valid time	2.072	0.0092	µS
T_VD;ACK	Data valid acknowledge time	0.177	0.177	µS
T_BUF	Bus free time between a STOP and START condition	29.30	29.07	µS
T_SP	Pulse width of spikes that must be suppressed by the input filter			nS

...

16.5.9.4 I2C Timing Parameters for High-speed Mode

Symbol	Parameters	High Speed Mode		Unit
		VDD = 1.8V	VDD = 3V
		MS = 1	MS = 0
		1.7MHz	1.7MHz
F_SCLH	SCLH clock frequency	1.251	1.266	MHz
T_LOW	Low period of the SCL clock	437.6	432.7	nS
T_HIGH	High period of the SCL clock	299.3	293.3	nS
T_HD;STA	Hold time (repeated) START condition	427.6	425.4	nS
T_SU;STA	Set-up time for a repeated START condition	511.7	504.2	nS
T_HD;DAT	Data hold time	28.03	24.37	nS
T_SU;DAT	Data set-up time	354.7	352.6	nS
T_rCL	Rise time of SCLH signal	55.33	53.33	nS
T_rCL1	Rise time of SCLH signal after a repeated START condition and after an acknowledge bit	55.83	54.92	nS
T_fCL	Fall time of SCLH signal	2.491	4.807	nS
T_rDA	Rise time of SDAH signal	53.00	52.00	nS
T_fDA	Fall time of SDAH signal	2.663	4.833	nS
T_SU;STO	Set-up time for STOP condition	493.3	479.4	nS

...

Symbol	Parameters	Min.	Typ.	Max.	Unit
t1	RMII clock period		20		nS
	RMII clock duty cycle	35		65	%
t2	TX_Data, TX_EN setup to RMII clock rising	4			nS
t3	TX_Data, TX_EN hold from RMII clock rising	2			nS
t4	RXD, CRSDV setup time	2			nS
t5	RXD, CRSDV hold time	2			nS

16.6 Power Consumption

Powers	Nominal Voltage (V)	FF corner (average)		Sim (peak)	Unit
Powers	Nominal Voltage (V)	37°C	120°C	85°C	Unit
DPHY_0V8	0.8	320	430	420	mA
MIPI_0V8	0.8	6834	36	90	mA
SYS_0V8	0.8	363	550	2140	mA
VDD_CA55	0.85	895	1889	1940940	mA
VDD_NPU	0.85	930	1078	5390	mA
VDD_VV	0.8	262	397	1670	mA
VDDQ	1.1	337	344		mA
MIPI_1V8	1.8	6.5	6.710	12	19	mA
SYS_1V8	1.8	20	21		mA
SYS_3V	3.0	75	76		mA
SYS_3V3	3.3	210	237		mA
AO_0V8	0.8	45	80		mA
AO_1.8V	1.8	19	20		mA
AO_3.0V	3.0	10	10		mA

...

AO: Always-On power domain
UA: UART

18.2 Ball Assignment

Ball No.	Ball Name	Function Type
A2	BP_A[30]	DRAM address and command
A4	BP_A[27]	DRAM address and command
A6	BP_A[25]	DRAM address and command
A8	BP_A[21]	DRAM address and command
A10	BP_A[17]	DRAM address and command
A12	BP_A[4]	DRAM address and command
A14	BP_A[15]	DRAM address and command
A16	BP_A[12]	DRAM address and command
A18	BP_A[9]	DRAM address and command
A20	BP_A[6]	DRAM address and command
A22	BP_D[14]	DRAM data and strobe
A23	BP_D[13]	DRAM data and strobe
A25	BP_D[22]	DRAM data and strobe
A27	BP_D[20]	DRAM data and strobe
A29	BP_D[17]	DRAM data and strobe
A31	AO_MX28	GPIO, PWM0, UA2 in AO domain
A33	AO_MX25	GPIO, SPI4, SPI5 in AO domain
A35	AO_MX23	GPIO, SPI4, SPI5 in AO domain
B1	BP_A[33]	DRAM address and command
B2	BP_A[31]	DRAM address and command
B3	BP_A[29]	DRAM address and command
B4	BP_A[28]	DRAM address and command
B5	BP_A[26]	DRAM address and command
B6	GND	GND
B7	BP_A[24]	DRAM address and command
B8	GND	GND
B9	BP_A[20]	DRAM address and command
B10	GND	GND
B11	BP_A[16]	DRAM address and command
B12	GND	GND
B13	BP_A[5]	DRAM address and command
B14	GND	GND
B15	BP_A[14]	DRAM address and command
B16	BP_A[13]	DRAM address and command
B17	BP_A[11]	DRAM address and command
B18	BP_A[10]	DRAM address and command
B19	BP_A[8]	DRAM address and command
B20	BP_A[7]	DRAM address and command
B21	GND	GND
B22	BP_D[15]	DRAM data and strobe
B23	BP_D[12]	DRAM data and strobe
B24	GND	GND
B25	BP_D[21]	DRAM data and strobe
B26	GND	GND
B27	BP_D[19]	DRAM data and strobe
B28	BP_D[18]	DRAM data and strobe
B29	BP_D[16]	DRAM data and strobe
B30	GND	GND
B31	AO_MX29	GPIO, PWM1 or UA2 in AO domain
B32	AO_MX26	GPIO, I2C2 or UA2 in AO domain
B33	AO_MX27	GPIO, I2C2 or UA2 in AO domain
B34	AO_MX24	GPIO, SPI4 or SPI5 in AO domain
B35	AO_MX22	GPIO, SPI4 or SPI5 in AO domain
B36	AO_MX20	GPIO or I2C1 in AO domain
B37	AO_MX21	GPIO or I2C1 in AO domain
C2	BP_A[32]	DRAM address and command
C36	AO_MX18	GPIO, I2C0 or UA0 in AO domain
D1	BP_A[35]	DRAM address and command
D2	BP_A[34]	DRAM address and command
D36	AO_MX17	GPIO, SPI0 or UA1 in AO domain
D37	AO_MX16	GPIO, SPI0 or UA1 in AO domain
E2	GND	GND
E36	AO_MX15	GPIO, SPI0 or UA1 in AO domain
F1	BP_D[38]	DRAM data and strobe
F2	BP_D[39]	DRAM data and strobe
F36	AO_MX13	GPIO or UA3 in AO domain
F37	AO_MX12	GPIO or UA3 in AO domain
G2	BP_D[37]	DRAM data and strobe
G36	AO_MX11	GPIO or PWM3 in AO domain
H1	BP_D[44]	DRAM data and strobe
H2	BP_D[36]	DRAM data and strobe
H36	AO_MX10	GPIO or PWM2 in AO domain
H37	AO_MX9	GPIO, UA2 or PWM1 in AO domain
J2	GND	GND
J36	AO_MX8	GPIO, UA2 or PWM0 in AO domain
K1	BP_D[46]	DRAM data and strobe
K2	BP_D[45]	DRAM data and strobe
K36	AO_MX7	GPIO, UA2 or I2C2 in AO domain
K37	AO_MX30	GPIO, UA6 or SPI1 in AO domain
L2	GND	GND
L36	AO_MX33	GPIO, UA7 or SPI1 in AO domain
M1	BP_D[42]	DRAM data and strobe
M2	BP_D[43]	DRAM data and strobe
M36	AO_MX31	GPIO, or UA6 or SPI1 in AO domain
M37	AO_MX35	GPIO or I2C6 in AO domain
N1	BP_D[41]	DRAM data and strobe
N2	BP_D[40]	DRAM data and strobe
N36	AO_MX34	GPIO or I2C6 in AO domain
P2	GND	GND
P36	AO_MX44	GPIO or SPI5 in AO domain
P37	AO_MX46	GPIO, I2C8 or SPI5 in AO domain
R1	MIPITX_OUTN0	MIPI TX
R2	MIPITX_OUTP0	MIPI TX
R36	AO_MX45	GPIO, I2C8 or SPI5 in AO domain
T2	MIPITX_AVSS	Analog GND to MIPI TX
T36	AO_MX39	GPIO, I2C3 or SPI2 in AO domain
T37	AO_MX40	GPIO, I2C4 or SPI2 in AO domain
U1	MIPITX_OUTP1	MIPI TX
U2	MIPITX_OUTN1	MIPI TX
U36	AO_MX37	GPIO or I2C7 in AO domain
V1	MIPITX_CLKN	MIPI TX
V2	MIPITX_CLKP	MIPI TX
V36	AO_MX36	GPIO or I2C7 in AO domain
V37	AO_MX38	GPIO, I2C3 or SPI2 in AO domain
W2	MIPITX_AVSS	Analog GND to MIPI TX
W36	X32K_AVSS	Analog GND to 32K crystal
Y1	MIPITX_OUTN2	MIPI TX
Y2	MIPITX_OUTP2	MIPI TX
Y36	X32KI	32.768kHz crystal in
Y37	X32KO	32.768kHz crystal out
AA2	MIPITX_AVSS	Analog GND to MIPI TX
AA36	X32K_AVSS	Analog GND to 32K crystal
AB1	MIPITX_OUTP3	MIPI TX
AB2	MIPITX_OUTN3	MIPI TX
AB36	SAR12B_AVSS	Analog GND to SAR ADC
AC2	MIPI4_AVSS	Analog GND to MIPI #4
AC36	SAR12B_ADI0	ADC input #0
AC37	SAR12B_ADI1	ADC input #1
AD1	MIPI4_DP[1]	MIPI RX #4
AD2	MIPI4_DN[1]	MIPI RX #4
AD36	SAR12B_ADI3	ADC input #3
AD37	SAR12B_ADI2	ADC input #2
AE1	MIPI4_SN	MIPI RX #4
AE2	MIPI4_SP	MIPI RX #4
AE36	SAR12B_AVSS	Analog GND to SAR ADC
AF2	MIPI4_AVSS	Analog GND to MIPI #4
AF36	XTAL_AVSS	Analog GND 25M crystal
AG1	MIPI4_DP[0]	MIPI RX #4
AG2	MIPI4_DN[0]	MIPI RX #4
AG36	XIN	25MHz Crystal in
AG37	XOUT	25MHz Crystal out
AH2	MIPI4_AVSS	Analog GND to MIPI #4
AH36	XTAL_AVSS	Analog GND to 25M crystal
AJ1	USB3_DM	USB3
AJ2	USB3_DP	USB3
AJ36	CPIOR_AVSS	Analog GND to CPIO
AK2	GND	GND
AK36	CPIOR-eRXD3P/MIPIRX2_DN3	CPIO or MIPI RX #2
AK37	CPIOR-eRXD3N/MIPIRX2_DP3	CPIO or MIPI RX #2
AL1	USB3_REFCLK_M	USB3 reference clock input, connect to GND
AL2	USB3_REFCLK_P	USB3 reference clock input, connect to GND
AL36	CPIOR-eTXD3P/MIPIRX2_DP1	CPIO or MIPI RX #2
AL37	CPIOR-eTXD3N/MIPIRX2_DN1	CPIO or MIPI RX #2
AM2	GND	GND
AM36	CPIOR_AVSS	Analog GND to CPIO
AN1	USB3_RX0P	USB3
AN2	USB3_RX0M	USB3
AN36	CPIOR-eTXD2N/MIPIRX2_CP	CPIO or MIPI RX #2
AN37	CPIOR-eTXD2P/MIPIRX2_CN	CPIO or MIPI RX #2
AP2	GND	GND
AP36	CPIOR-eRXD2N/MIPIRX2_DN0	CPIO or MIPI RX #2
AP37	CPIOR-eRXD2P/MIPIRX2_DP0	CPIO or MIPI RX #2
AR1	USB3_TX0P	USB3
AR2	USB3_TX0M	USB3
AR36	CPIOR_AVSS	Analog GND to CPIO
AT2	GND	GND
AT3	USB3_RX1M	USB3
AT4	GND	GND
AT5	USB3_TX1M	USB3
AT6	GND	GND
AT7	G_MX16	GPIO, Ethernet MAC or SPI1
AT8	G_MX15	GPIO, Ethernet MAC or SPI1
AT9	G_MX13	GPIO, Ethernet MAC or UADBG
AT10	G_MX10	GPIO, Ethernet MAC, SPI0 or I2C8
AT11	G_MX8	GPIO, Ethernet MAC or UA3
AT12	G_MX3	GPIO, Ethernet MAC or I2C7
AT13	G_MX42	GPIO or SD card
AT14	G_MX38	GPIO or SD card
AT15	G_MX39	GPIO or SD card
AT16	G_MX41	GPIO or SD card
AT17	G_MX45	GPIO, SDIO or SPI3
AT18	G_MX46	GPIO, SDIO or SPI3
AT19	G_MX48	GPIO, SDIO or UA6
AT20	G_MX49	GPIO, SDIO or UA6
AT21	G_MX28	GPIO, eMMC or 8-bit NAND
AT22	G_MX30	GPIO, eMMC, SPI-NAND or 8-bit NAND
AT23	G_MX37	GPIO or eMMC
AT24	G_MX36	GPIO, eMMC or 8-bit NAND
AT25	G_MX31	GPIO, eMMC, SPI-NAND or 8-bit NAND
AT26	G_MX32	GPIO, eMMC, SPI-NAND or 8-bit NAND
AT27	G_MX33	GPIO, eMMC, SPI-NAND or 8-bit NAND
AT28	CPIOR_AVSS	Analog GND to CPIO
AT29	CPIOR-eTXD0P	CPIO
AT30	CPIOR-eRXD0P/MIPIRX3_DN0	CPIO or MIPI RX #3
AT31	CPIOR_AVSS	Analog GND to CPIO
AT32	CPIOR-eRXD1N/MIPIRX3_CN	CPIO or MIPI RX #3
AT33	CPIOR-eTXD1N/MIPIRX3_DP1	CPIO or MIPI RX #3
AT34	CPIOR_AVSS	Analog GND to CPIO
AT35	CPIOR-eTXCP	CPIO
AT36	CPIOR-eRXCP/MIPIRX2_DN2	CPIO or MIPI RX #2
AT37	CPIOR_AVSS	Analog GND to CPIO
AU3	USB3_RX1P	USB3
AU5	USB3_TX1P	USB3
AU7	G_MX17	GPIO or SPI1
AU9	G_MX14	GPIO, Ethernet MAC, UADBG or SPI1
AU11	G_MX7	GPIO, Ethernet MAC or UA3
AU13	G_MX43	GPIO or SD card
AU15	G_MX40	GPIO or SD card
AU17	G_MX44	GPIO, SDIO or SPI3
AU19	G_MX47	GPIO, SDIO or SPI3
AU21	G_MX29	GPIO, eMMC or 8-bit NAND
AU23	G_MX20	GPIO, eMMC or 8-bit NAND
AU25	G_MX35	GPIO, eMMC, SPI-NAND or 8-bit NAND
AU27	G_MX34	GPIO, eMMC, SPI-NAND or 8-bit NAND
AU29	CPIOR-eTXD0N	CPIO
AU30	CPIOR-eRXD0N/MIPIRX3_DP0	CPIO or MIPI RX #3
AU32	CPIOR-eRXD1P/MIPIRX3_CP	CPIO or MIPI RX #3
AU33	CPIOR-eTXD1P/MIPIRX3_DN1	CPIO or MIPI RX #3
AU35	CPIOR-eTXCN	CPIO
AU36	CPIOR-eRXCN/MIPIRX2_DP2	CPIO or MIPI RX #2
AV1	BP_D[30]	DRAM data and strobe
AV2	BP_D[29]	DRAM data and strobe
AV3	GND	GND
AV4	BP_A[37]	DRAM address and command
AV6	BP_A[36]	DRAM address and command
AV7	BP_MEMRESET_L	DRAM Reset
AV9	BP_A[3]	DRAM address and command
AV10	BP_A[1]	DRAM address and command
AV12	GND	GND
AV13	BP_D[8]	DRAM data and strobe
AV15	GND	GND
AV16	BP_D[0]	DRAM data and strobe
AV17	BP_D[2]	DRAM data and strobe
AV18	GND	GND
AV19	VDDPST3018_DVIO_AO_3	3.2V or 1.8V supply for DVIO_AO_3 Group in AO domain
AV20	AO_MX19	GPIO, I2C0 or UA0 in AO domain
AW1	BP_D[31]	DRAM data and strobe
AW2	GND	GND
AW3	BP_D[28]	DRAM data and strobe
AW4	BP_A[38]	DRAM address and command
AW6	BP_A[22]	DRAM address and command
AW7	BP_ZN	DRAM reference resistor
AW9	BP_A[18]	DRAM address and command
AW10	BP_A[2]	DRAM address and command
AW12	BP_D[4]	DRAM data and strobe
AW13	BP_D[7]	DRAM data and strobe
AW15	BP_D[9]	DRAM data and strobe
AW16	BP_D[1]	DRAM data and strobe
AW17	BP_D[3]	DRAM data and strobe
AW18	GND	GND
AW19	VDDPST18_DVIO_AO_3	Connect to bypass capacitors
AW20	AO_MX14	GPIO, SPI0 or UA1 in AO domain
AY1	BP_D[33]	DRAM data and strobe
AY2	BP_D[34]	DRAM data and strobe
AY3	GND	GND
AY4	BP_A[23]	DRAM address and command
AY6	BP_VAA	1.8V analog supply to DDRPHY PLL
AY7	BP_ALERT_N	DRAM alert output
AY9	BP_VREF	DRAM VREF output
AY10	BP_A[0]	DRAM address and command
AY12	BP_D[5]	DRAM data and strobe
AY13	BP_D[6]	DRAM data and strobe
AY15	BP_D[10]	DRAM data and strobe
AY16	GND	GND
AY17	VDDPST18_DVIO_AO_2	Connect to bypass capacitors
AY18	VDDPST3018_DVIO_AO_2	3.2V or 1.8V supply for DVIO_AO_2 Group in AO domain
AY19	AO_MX1	GPIO or UA0 in AO domain
AY20	AO_MX5	GPIO, UA1, I2C0 or SPI3 in AO domain
BA1	GND	GND
BA2	BP_D[32]	DRAM data and strobe
BA3	GND	GND
BA4	GND	GND
BA5	GND	GND
BA6	GND	GND
BA7	GND	GND
BA8	GND	GND
BA9	GND	GND
BA10	GND	GND
BA11	GND	GND
BA12	GND	GND
BA13	GND	GND
BA14	GND	GND
BA15	GND	GND
BA16	DRAM_VDDQ	Supply to DRAM data and strobe pin
BA17	VDDPST18_DVIO_AO_1	Connect to bypass capacitors
BA18	VDDPST3018_DVIO_AO_1	3.2V or 1.8V supply for DVIO_AO_1 Group in AO domain
BA19	AO_MX4	GPIO, UA1, I2C0 or SPI3 in AO domain
BA20	AO_MX6	GPIO, UA2 or I2C2 in AO domain
BB1	BP_D[25]	DRAM data and strobe
BB2	BP_D[24]	DRAM data and strobe
BB3	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB4	GND	GND
BB5	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB6	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB7	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB8	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB9	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB10	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB11	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB12	GND	GND
BB13	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB14	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB15	DRAM_VDDQ	Supply to DRAM data and strobe pin
BB16	OTP_1V8	1.8V supply to write OTP
BB17	AO_MX0	GPIO or UA0 in AO domain
BB18	AO_MX3	GPIO, UA1 or SPI3 in AO domain
BB19	GND	GND
BB20	AO_MX2	GPIO, UA1 or SPI3 in AO domain
BC4	DRAM_VDDQ	Supply to DRAM data and strobe pin
BC5	DRAM_VDDQ	Supply to DRAM data and strobe pin
BC6	GND	GND
BC7	GND	GND
BC8	GND	GND
BC9	DRAM_VDDQ	Supply to DRAM data and strobe pin
BC10	GND	GND
BC11	DRAM_VDD	0.8V supply to DRAM digital core
BC12	DRAM_VDD	0.8V supply to DRAM digital core
BC13	DRAM_VDD	0.8V supply to DRAM digital core
BC14	GND	GND
BC15	GND	GND
BD1	GND	GND
BD2	BP_D[26]	DRAM data and strobe
BD3	BP_D[27]	DRAM data and strobe
BD4	GND	GND
BD5	DRAM_VDD	0.8V supply to DRAM digital core
BD6	DRAM_VDD	0.8V supply to DRAM digital core
BD7	DRAM_VDD	0.8V supply to DRAM digital core
BD8	GND	GND
BD9	DRAM_VDD	0.8V supply to DRAM digital core
BD10	DRAM_VDD	0.8V supply to DRAM digital core
BD11	GND	GND
BD12	GND	GND
BD13	GND	GND
BD14	GND	GND
BD15	VDDPST18_GPIO_AO	1.8V supply for GP1 and GP2 groups in AO domain
BD16	VDDPST18_GPIO_AO	1.8V supply for GP1 and GP2 groups in AO domain
BD17	AO_MX47	GPIO, I2C9 or SPI5 in AO domain
BD18	AO_MX48	GPIO or I2C9 AO domain
BD19	GND	GND
BD20	AO_MX32	GPIO, UA7 or SPI1 in AO domain
BE1	MIPITX_AVDD18	1.8V analog supply to MIPI TX
BE2	MIPITX_AVSS	Analog GND to MIPI TX
BE5	GND	GND
BE6	GND	GND
BE7	GND	GND
BE8	GND	GND
BE9	GND	GND
BE10	GND	GND
BE11	GND	GND
BE12	VDD_BLOCKA	0.8V supply to video codec
BE13	VDD_BLOCKA	0.8V supply to video codec
BE14	GND	GND
BE15	VDD_AO	0.8V supply to AO digital core
BE16	VDD_AO	0.8V supply to AO digital core
BE17	AO_MX41	GPIO, I2C4 or SPI2 in AO domain
BE18	AO_MX42	GPIO, I2C5 or PWM2 in AO domain
BE19	GND	GND
BE20	AO_MX43	GPIO, I2C5 or PWM3 in AO domain
BF1	MIPI5_DP[3]	MIPI RX #5
BF2	MIPI5_DN[3]	MIPI RX #5
BF3	MIPI5_DP[1]	MIPI RX #5
BF4	MIPI5_DN[1]	MIPI RX #5
BF6	VDD_NPU_MEASURE	VDD_NPU for feedback
BF7	VDD_NPU	0.8V supply to NPU
BF8	VDD_NPU	0.8V supply to NPU
BF9	GND	GND
BF10	VDD	0.8V supply to digital core
BF11	GND	GND
BF12	VDD_BLOCKA	0.8V supply to video codec
BF13	VDD_BLOCKA	0.8V supply to video codec
BF14	GND	GND
BG6	GND	GND
BG7	VDD_NPU	0.8V supply to NPU
BG8	GND	GND
BG9	VDD	0.8V supply to digital core
BG10	VDD	0.8V supply to digital core
BG11	VDD_BLOCKA	0.8V supply to video codec
BG12	VDD_BLOCKA	0.8V supply to video codec
BG13	VDD_BLOCKA	0.8V supply to video codec
BG14	VDD_BLOCKA	0.8V supply to video codec
BG15	GND	GND
BG16	IV_MX2	GPIO, Boot-configuration pin #2
BG17	IV_MX1	GPIO, Boot-configuration pin #1
BG18	IV_MX3	GPIO, Boot-configuration pin #3
BG19	GND	GND
BG20	IV_MX5	GPIO, Boot-configuration pin #5
BH1	MIPI5_SN	MIPI RX #5
BH2	MIPI5_SP	MIPI RX #5
BH3	MIPI5_AVDD08	0.8V analog supply to MIPI #5
BH4	MIPI5_AVSS	Analog GND to MIPI #5
BH6	GND	GND
BH7	VDD_NPU	0.8V supply to NPU
BH8	VDD_NPU	0.8V supply to NPU
BH9	GND	GND
BH10	VDD	0.8V supply to digital core
BH11	VDD	0.8V supply to digital core
BH12	GND	GND
BH13	VDD_BLOCKA	0.8V supply to video codec
BH14	VDD_BLOCKA	0.8V supply to video codec
BH15	GND	GND
BH16	GND	GND
BH17	GND	GND
BH18	IV_MX6	GPIO, Boot-configuration pin #6
BH19	GND	GND
BH20	IV_MX4	GPIO, Boot-configuration pin #4
BJ1	MIPI5_DP[0]	MIPI RX #5
BJ2	MIPI5_DN[0]	MIPI RX #5
BJ3	MIPI5_AVDD18	1.8V analog supply to MIPI #5
BJ4	MIPI5_AVSS	Analog GND to MIPI #5
BJ6	GND	GND
BJ7	VDD_NPU	0.8V supply to NPU
BJ8	VDD_NPU	0.8V supply to NPU
BJ9	GND	GND
BJ10	VDD	0.8V supply to digital core
BJ11	GND	GND
BJ12	VDD_CA55	0.7 ~ 1.0V supply to CA55
BJ13	GND	GND
BJ14	GND	GND
BJ15	GND	GND
BJ16	VDD_RTC	Connect to bypass capacitors
BJ18	CM4_PWR_EN	CM4 power enable
BJ19	CM4_WAKEUP_KEY	CM4 wake-up key (high active)
BJ20	IV_MX0	GPIO, Boot-configuration pin #0
BK6	GND	GND
BK7	VDD_NPU	0.8V supply to NPU
BK8	VDD_NPU	0.8V supply to NPU
BK9	GND	GND
BK10	VDD	0.8V supply to digital core
BK11	VDD_CA55	0.7 ~ 1.0V supply to CA55
BK12	VDD_CA55	0.7 ~ 1.0V supply to CA55
BK13	VDD_CA55	0.7 ~ 1.0V supply to CA55
BK14	VDD_CA55	0.7 ~ 1.0V supply to CA55
BK16	VDDPST18_GPIO_RTC	1.8V supply to RTC
BK17	RESET_B	Reset
BK19	X32K_AVSS	Analog GND to 32K crystal
BK20	X32K_AVDD18	1.8V analog supply to 32K crystal
BL1	MIPI5_DN[2]	MIPI RX #5
BL2	MIPI5_DP[2]	MIPI RX #5
BL3	MIPI5_AVSS	Analog GND to MIPI #5
BL5	GND	GND
BL6	VDD	0.8V supply to digital core
BL7	VDD	0.8V supply to digital core
BL8	VDD	0.8V supply to digital core
BL9	VDD	0.8V supply to digital core
BL10	GND	GND
BL11	VDD_CA55	0.7 ~ 1.0V supply to CA55
BL12	VDD_CA55	0.7 ~ 1.0V supply to CA55
BL13	VDD_CA55	0.7 ~ 1.0V supply to CA55
BL14	VDD_CA55	0.7 ~ 1.0V supply to CA55
BL16	GND	GND
BL20	SAR12B_AVDD18	1.8V analog supply to ADC
BM1	MIPI4_AVDD18	1.8V analog supply to MIPI #4
BM2	MIPI4_AVDD08	0.8V analog supply to MIPI #4
BM3	MIPI4_AVSS	Analog GND to MIPI #4
BM6	GND	GND
BM7	GND	GND
BM9	GND	GND
BM10	GND	GND
BM11	GND	GND
BM12	GND	GND
BM13	GND	GND
BM14	GND	GND
BM20	SAR12B_AVSS	Analog GND to SAR ADC
BN1	USB3_VBUS	USB3 VBUS input
BN2	USB3_RESREF	USB3 reference resistor
BN3	USB3_DVDD08	0.8V supply to USB3 digital core
BN4	GND	GND
BN7	VDDPST18_GPIO_1	1.8V supply for GPIO 1 group
BN9	VDDPST18IO_SD	Connect to bypass capacitors
BN10	VDDPST18_SD	Connect to bypass capacitors
BN12	TML_AVDD18	1.8V analog supply for thermal sensor
BN13	VDDPST18_DVIO_1	Connect to bypass capacitors
BN15	VDDPST18_DVIO_2	Connect to bypass capacitors
BN16	GND	GND
BN18	AVSS_PLLS	Analog GND to PLLS
BN19	AVDD08_PLLS	0.8V analog supply to PLLS
BP1	USB3_ID	USB3
BP2	USB3_VDD33	3.3V supply to USB3
BP3	USB3_AVDD08	0.8V analog supply to USB3
BP4	GND	GND
BP6	G_MX12	GPIO, Ethernet MAC SPI0 or I2C9
BP7	G_MX5	GPIO or Ethernet MAC
BP9	GND	GND
BP10	AVDDIO_3018_SD	3.2V or 1.8V power output for SD card
BP12	VDDPST3018_DVIO_1	3.2V or 1.8V supply for DVIO_1 group
BP13	G_MX25	GPIO or SPI NOR, SPI NAND or Parallel NAND
BP15	VDDPST3018_DVIO_2	3.2V or 1.8V supply for DVIO_2 group
BP16	VDDPST18_GPIO_0	Connect to bypass capacitors
BP18	AVSS_PLLD	Analog GND to PLLD
BP19	AVDD08_PLLD	0.8V analog supply to PLLD
BR1	USB20_AVDD18	1.8V analog supply to USB2
BR2	USB20_AVDD33	3.3V analog supply to USB2
BR3	GND	GND
BR4	GND	GND
BR6	G_MX11	GPIO, Ethernet MAC SPI0 or I2C9
BR7	G_MX6	GPIO or Ethernet MAC
BR9	AVDDIO_3018_SDIO	3.2V or 1.8V power output for SDIO
BR10	VDDPST18_SDIO	Connect to bypass capacitors
BR12	G_MX27	GPIO or Parallel NAND
BR13	G_MX23	GPIO, SPI NOR, SPI NAND or Parallel NAND
BR15	G_MX22	GPIO, SPI NOR, SPI NAND or Parallel NAND
BR16	G_MX0	GPIO or Ethernet MAC
BR18	AVSS_PLLC	Analog GND to PLLC
BR19	AVDD08_PLLC	0.8V analog supply to PLLC
BR20	CPIOR-eCHRDY_I	CPIO
BT1	USB20_DP	USB2
BT2	USB20_DM	USB2
BT3	GND	GND
BT4	G_MX19	GPIO or USB2 ID input
BT6	GND	GND
BT7	GND	GND
BT9	GND	GND
BT10	GND	GND
BT12	GND	GND
BT13	GND	GND
BT15	GND	GND
BT16	G_MX1	GPIO or I2C6
BT18	CPIOR_AVSS	Analog GND to CPIO
BT19	CPIOR_AVDD18	1.8V analog supply to CPIO
BT20	CPIOR-eRESET	CPIO
BU1	USB20_VBUS	USB2
BU2	USB20_R_TEST	Leave open
BU3	GND	GND
BU4	G_MX18	GPIO or USB2.0 DRV5ENB (low active) output
BU6	G_MX9	GPIO, Ethernet MAC SPI0 or I2C8
BU7	G_MX4	GPIO, Ethernet MAC or I2C7
BU9	AVDD30_SD_SDIO	3.2V analog supply to SDIO
BU10	VDDPST18IO_SDIO	Connect to bypass capacitors
BU12	G_MX26	GPIO, SPI-NOR, SPI-NAND or 8-bit NAND
BU13	G_MX24	GPIO, SPI-NOR, SPI-NAND or 8-bit NAND
BU15	G_MX21	GPIO, SPI-NOR, SPI-NAND or 8-bit NAND
BU16	G_MX2	GPIO or I2C6
BU18	CPIOR_AVSS	Analog GND to CPIO
BU19	CPIOR_AVDD08	0.8V analog supply to CPIO
BU20	CPIOR-eCHRDY_O	CPIO

...

18.3.1 Data and Strobe Signals

	Ball Name	LPDDR4	DDR4	LPDDR3	DDR3
DBYTE-0	BP_D[0]	DQA0	DQ0	DQA0	DQ0
	BP_D[1]	DQA1	DQ1	DQA1	DQ1
	BP_D[2]	DQA2	DQ2	DQA2	DQ2
	BP_D[3]	DQA3	DQ3	DQA3	DQ3
	BP_D[4]	DQA4	DQ4	DQA4	DQ4
	BP_D[5]	DQA5	DQ5	DQA5	DQ5
	BP_D[6]	DQA6	DQ6	DQA6	DQ6
	BP_D[7]	DQA7	DQ7	DQA7	DQ7
	BP_D[8]	DMA0/DBIA[0]	DM0/DBI[0]	DMA0	DM0
	BP_D[9]	DQSA_T[0]	DQS_T[0]	DQSA_T[0]	DQS_T[0]
	BP_D[10]	DQSA_C[0]	DQS_C[0]	DQSA_C[0]	DQS_C[0]
	BP_D[11]
DBYTE-1	BP_D[12]	DQA8	DQ8	DQA8	DQ8
	BP_D[13]	DQA9	DQ9	DQA9	DQ9
	BP_D[14]	DQA10	DQ10	DQA10	DQ10
	BP_D[15]	DQA11	DQ11	DQA11	DQ11
	BP_D[16]	DQA12	DQ12	DQA12	DQ12
	BP_D[17]	DQA13	DQ13	DQA13	DQ13
	BP_D[18]	DQA14	DQ14	DQA14	DQ14
	BP_D[19]	DQA15	DQ15	DQA15	DQ15
	BP_D[20]	DMA1/DBIA[1]	DM1/DBI[1]	DMA1	DM1
	BP_D[21]	DQSA_T[1]	DQS_T[1]	DQSA_T[1]	DQS_T[1]
	BP_D[22]	DQSA_C[1]	DQS_C[1]	DQSA_C[1]	DQS_C[1]
	BP_D[23]
DBYTE-2	BP_D[24]	DQB0	DQ16	DQB0	DQ16
	BP_D[25]	DQB1	DQ17	DQB1	DQ17
	BP_D[26]	DQB2	DQ18	DQB2	DQ18
	BP_D[27]	DQB3	DQ19	DQB3	DQ19
	BP_D[28]	DQB4	DQ20	DQB4	DQ20
	BP_D[29]	DQB5	DQ21	DQB5	DQ21
	BP_D[30]	DQB6	DQ22	DQB6	DQ22
	BP_D[31]	DQB7	DQ23	DQB7	DQ23
	BP_D[32]	DMB0/DBIB[0]	DM2/DBI[2]	DMB0	DM2
	BP_D[33]	DQSB_T[0]	DQS_T[2]	DQSB_T[0]	DQS_T[2]
	BP_D[34]	DQSB_C[0]	DQS_C[2]	DQSB_C[0]	DQS_C[2]
	BP_D[35]
DBYTE-3	BP_D[36]	DQB8	DQ24	DQB8	DQ24
	BP_D[37]	DQB9	DQ25	DQB9	DQ25
	BP_D[38]	DQB10	DQ26	DQB10	DQ26
	BP_D[39]	DQB11	DQ27	DQB11	DQ27
	BP_D[40]	DQB12	DQ28	DQB12	DQ28
	BP_D[41]	DQB13	DQ29	DQB13	DQ29
	BP_D[42]	DQB14	DQ30	DQB14	DQ30
	BP_D[43]	DQB15	DQ31	DQB15	DQ31
	BP_D[44]	DMB1/DBIB[1]	DM3/DBI[3]	DMB1	DM3
	BP_D[45]	DQSB_T[1]	DQS_T[3]	DQSB_T[1]	DQS_T[3]
	BP_D[46]	DQSB_C[1]	DQS_C[3]	DQSB_C[1]	DQS_C[3]
	BP_D[47]

18.3.2 Address and Command

	Ball Name	LPDDR4	DDR4	LPDDR3	DDR3
Master	BP_MEMRESET_L	RESET_N	RESET_N		RESET_N
Master	BP_ALERT_N		ALERT_N
ACX4-0	BP_A[0]	CKEA0	CKE0	CKEA0	CKE0
	BP_A[1]	CKEA1	CKE1	CKEA1	CKE1
	BP_A[2]	CSA0	CS_N0	CSA0	CS_N0
	BP_A[3]	CSA1	C0	CSA1
ACX4-1	BP_A[4]	CLKA_T	BG0	CLKA_T	BA2
	BP_A[5]	CLKA_C	BG1	CLKA_C	A14
	BP_A[6]		ACT_N		A15
	BP_A[7]		A9		A9
ACX4-2	BP_A[8]	CAA0	A12	CAA0	A12
	BP_A[9]	CAA1	A11	CAA1	A11
	BP_A[10]	CAA2	A7	CAA2	A7
	BP_A[11]	CAA3	A8	CAA3	A8
ACX4-3	BP_A[12]	CAA4	A6	CAA4	A6
	BP_A[13]	CAA5	A5	CAA5	A5
	BP_A[14]		A4	CAA6	A4
	BP_A[15]		A3	CAA7	A3
ACX4-4	BP_A[16]		CLK0_T	CAA8	CLK0_T
	BP_A[17]		CLK0_C	CAA9	CLK0_C
	BP_A[18]			ODTA
	BP_A[19]
ACX4-5	BP_A[20]	CKEB0	CLK1_T	CKEB0	CLK1_T
	BP_A[21]	CKEB1	CLK1_C	CKEB1	CLK1_C
	BP_A[22]	CSB1		CSB1
	BP_A[23]	CSB0		CSB0
ACX4-6	BP_A[24]	CLKB_T	A2	CLKB_T	A2
	BP_A[25]	CLKB_C	A1	CLKB_C	A1
	BP_A[26]		BA1		BA1
	BP_A[27]		PAR		PAR
ACX4-7	BP_A[28]	CAB0	A13	CAB0	A13
	BP_A[29]	CAB1	BA0	CAB1	BA0
	BP_A[30]	CAB2	A10	CAB2	A10
	BP_A[31]	CAB3	A0	CAB3	A0
ACX4-8	BP_A[32]	CAB4	C2	CAB4
	BP_A[33]	CAB5	CAS_N	CAB5	CAS_N
	BP_A[34]		WE_N	CAB6	WE_N
	BP_A[35]		RAS_N	CAB7	RAS_N
ACX4-9	BP_A[36]		ODT0	CAB8	ODT0
	BP_A[37]		ODT1	CAB9	ODT1
	BP_A[38]		CS_N1	ODTB	CS_N1
	BP_A[39]		C1

...

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