hikey960硬件说明书

peter · 发表于 2017-11-27 11:10:54

原文：
https://www.96boards.org/documentation/consumer/hikey960/hardware-docs/hardware-user-manual.md.html
Introduction

The HiKey960 Development Board is a 96Boards compliant community board based on Hisilicon Kirin960 SoC. The following table lists its key features:

Kirin 960 SoC:
- 4Cortex A73 + 4Cortex A53 Big.Little CPU architecture
- ARM Mali G71 MP8
- 3GB LPDDR4 SDRAM
- Hi6421GWCV530 PMU
Memory / Storage:
- 32GB UFS flash storage
- MicroSD card slot
- PCIe Gen2 on M.2 M Key connector
Wireless:
- WiFi (2.4- and 5-GHz dual band with two antennas)
- Bluetooh 4.1
USB
- 2 x USB 3.0 type A (host mode only)
- 1 x USB 2.0 type C OTG
Display
- 1 x HDMI 1.4 (Type A - full)
- 1 x 4L-MIPI DSI
- HDMI output up to FHD 1080P
Video
- Inside Encoder:H.265/H.264 3840*2400@30fps 4 * 1080p @ 30 fps
- Inside Decoder: H.265,HEVC MP/High Tier, Main 10/High Tier,H.264 BP/MP/HP, MPEG1/2/4, VC-1, VP6/8
Audio
- HDMI output
Camera
- 1 x 4-lane MIPI CSI
- 1 x 2-lane MIPI CSI
Expansion Interface
- 40 pin low speed expansion connector: +1.8V, +5V, DC power, GND, 2UART, 2I2C, SPI, I2S, 12*GPIO
- 60 pin high speed expansion connector: 4L-MIPI DSI, I2C x2, SPI (48M), USB 2.0, 2L+4LMIPI CSI
LED
- 1 x WiFi activity LED（Yellow）
- 1 x BT activity LED (Blue)
- 4 x User LEDs (Green)
Button
- Power Button ： Button Power on/off & Reset the system
Power Source
- Recommend a 12V@2A adapter with a DC plug which has a 4.75mm outer diameter and 1.7mm center pin with standard center-positive (EIAJ-3 Compliant)
OS Support
- AOSP/LINUX
Appearance characteristic
- 85mm x 55mm

What's in the Box

Board Overview

Position	Description
1	40PIN low speed interface
2	Power interface
3	SD Card
4	HDMI A
5	USB 2.0 OTG TYPE C
6	USB 3.0
7	USB 3.0
8	4 leds
9	60 PIN High speed
10	WLAN And bluetooth
11	BOOT Select
12	DEBUG Uart
13	POWER/RESET
14	WLAN/Bluetooth antenna
15	PCIE M2 MKEY
16	JTAG

System Block Diagram

Jumpers/Switch Configurations
Getting StartedPrerequisites

Before you power up your HiKey960 Development Board for the first time you will need the following:

HiKey960 Development Board.
A 96Boards compliant power supply (sold separately ).
A HDMI or DVI LCD Monitor that supports a resolution of 1080P/60Hz.
HDMI-HDMI cable or HDMI-DVI cable to connect the board to the Monitor.
A computer keyboard with USB interface.
A computer mouse with USB interface.

Known LimitationsStarting the board for the first time

To start the board, follow these simple steps:

Connect the HiKey960 to your display with the HDMI cable. It is important to do this first because the monitor will not detect the board if it is connected after starting. Ensure that the source for the display is switched to the HDMI port you are using.
Connect the Express-UartBoard.
Ensure Auto Power is ON.

Component DetailsProcessor

4 ARM Cortex-A73 MPCore(Big Core 4 2.4G Hz) 4 A53 MPCore(Little Core 1.8G)
ARM Mali G71 MP8 3DGPU

PMIC

There are a master PMIC and two slave PMIC for Kirin960 platform.
Master PMIC is a power management system chip.
One of the slave PMIC is a 4-phase high efficiency buck converter which applied to offer the power of CPU-B, and the other one is used for GPU&CPU-L.

Memory (DRAM)

The Hikey960 Development Board provides 3GB LPDDR4-SDRAM which is a 4-channel and 64bit width bus implementation interfacing directly to the Kirin960 build-in LPDDR controller. The maximum DDR clock is 1866MHz. It is mounted over the Kirin960 using pop technology.

Storage

The Hikey960 Development Board provides an 32GB UFS which is compliant with UFS2.0.

Micro SDHC

The Hikey960 Development Board SD slot signals are routed directly to the Kirin960 SDC interface. It meets the SD3.0 standard.

Boot ROM

The Hikey960 Development Board boots up from the UFS.

NetworkingWiFi

Dual-band (2.4/5GHz) single stream 802.11 a/b/g/n RF.
20- and 40-MHz SISO and 20-MHz 2 × 2 MIMO at 2.4 GHz for High Throughput: 80 Mbps(TCP), 100 Mbps (UDP).
2.4-GHz MRC Support for Extended Range and 5-GHz Diversity Capable.

Bluetooth

Bluetooth 4.1 Compliance and CSA2 Support.
Host Controller Interface (HCI) Transport for Bluetooth Over UART.
Dedicated Audio Processor Support of SBC Encoding + A2DP.
Dual-Mode Bluetooth and Bluetooth LE.

Display InterfaceHDMI

The 96Boards specification calls for an HDMI port to be present on the board. The Kirin960 doesn’t include a built-in HDMI interface.
The Hikey960 Development Board deploys the built-in DSI interface as the source for the HDMI output. A peripheral Bridge IC (U1901, ADV7535) performs this task and it supports 1080p at 30Hz.

MIPI-DSI

The 96Boards specification calls for a MIPI-DSI implementation via the High Speed Expansion Connector.
The Hikey960 Development Board implements a 4-lane MIPI_DSI interface meeting this requirement. It can support up to 2560*1600@60fps. The Hikey960 Development Board routes the MIPI_DSI interface signals to the DSI-0 interface of the Kirin960.

Camera Interface

The 96Boards specification calls for two camera interfaces.
The Hikey960 Development Board supports two camera interfaces, one with a 4-lane MIPI_CSI interface and one with 2-lane MIPI_CSI interface, meeting this requirement. The 4-lane MIPI_CSI interface can support 26M camera and the 2-lane MIPI_CSI interface can support 8M camera.

USB Ports

The Hikey960 Development Board supports a USB OTG port and three USB host ports via a USB MUX. The input channel( D+/D-) of USB MUX is connected to the usb port of the SOC, and the two output channels(1D+/1D-,2D+/2D-) are connected to type C USB port and USB hub respectively. The three USB host ports are connected to the downstream ports of the USB hub.The control of MUX is done via a software controlled GPIO. When this signal is logic low, ‘0’, the USB data lines are routed to the type C USB connector. When ‘USB_SW_SEL’ is logic level high, ‘1’, the USB data lines are routed to USB HUB.

USB Host ports

The Hikey960 Development Board supports three USB host port via a USB hub (U1803 USB5734). Its upstream signal is connected to USB interface of Kirin960.

Port 1 of the USB HUB is routed to J1702, a Type ‘A’ USB Host connector. A current limited controller (U1704) sets the Power Current limit to 1A.
Port 2 of the USB HUB is routed to J1801, a Type ‘A’ USB Host connector. A current limited controller (U1806) sets the Power Current limit to 1A.
Port 3 of the USB HUB is routed to the High Speed Expansion connector. No current limited controller is implemented on the board for this channel.

USB OTG ports

The Hikey960 Development Board implements a OTG port. The port is located at J1701, a type C USB.

Note: The board can work in one mode at a time, Host mode or Device mode, not both.

Audio

The Hikey960 Development Board has three audio ports: BT, HDMI and I2S.

DC Power

The Hikey960 Development Board can be powered as follow:

8V to 18V supply from a dedicated DC jack(P401)

Power Measurement

The Hikey960 Development Board has three current sense resistors R401/R413/R408.

[td]

Reference	Net	Description
R401	DC_IN	To measure the current of total base board power
R413	SYS_5V	To measure the current of SYS_5V power
R408	VDD_4V2	To measure the current of VDD_4V2 power

External Fan Connection

The 96Boards specification calls for support for an external fan. That can be achieved by using the 5V or the SYS_DCIN (12V), both present on the Low Speed Expansion connector.

UART

The Hikey960 Development Board has two UART ports (UART6 / UART3), both present on the Low Speed Expansion connector. They are routed to the UART6 (UART1_TxD, UART1_RxD) and UART3 (UART3_TxD, UART3_RxD, UART3_CTS, UART3_RTS) interface of Kirin960 separately. The UART6 is used for the serial console output.

Buttons

The Hikey960 Development Board presents one button. It is Power key which also can be used as Reset key. The power ON/OFF and RESET signals are also routed to the Low Speed Expansion connector.

Power Button

The push-button S2201 serves as the power-on/sleep button. Upon applying power to the board, press the power button the board will boot up. Once the board is running you can turn power-off by pressing the power button for more than 3 seconds. If the board is in a sleep mode, pressing the power bottom will wake up the board. Oppositely, if the board is in an active mode, pressing the power bottom will change the board into sleep mode.

Reset Button

The push-button S2201 also serves as the hardware reset button. press the button for more than 10 seconds,the system will be rebooted.

LED Indicators

The Hikey960 Development Board has six LEDs.

Two activity LEDs

WiFi activity LED –The Hikey960 Development Board drives this Yellow LED via GPIO205 from Kirin960.
BT activity LED –The Hikey960 Development Board drives this Blue LED via GPIO207 from Kirin960.

Four User LEDs

The four user LEDs are surface mount Green in 0603 size located next to the USB type A connector. The Hikey960 Development Board drives the four LEDs from the soc GPIO: GPIO150, GPIO151，GPIO189 and GPIO190.

Additional Functionality

The Hikey960 Development Board also has a additional interface for user debugging. It includes JTAG interface. The position is reserved, but the component is not mounted in the mass production.

Expansion ConnectorsLow Speed Expansion Connector[td]

HiKey960 Signals	96Boards Signals	PIN	PIN	96Boards Signals	HiKey960 Signals
GND	GND	1	2	GND	GND
UART3_CTS_N	UART0_CTS	3	4	PWR_BTN_N	PWRON_N
UART3_TXD	UART0_TxD	5	6	RST_BTN_N	EXP_RSTOUT_N
UART3_RXD	UART0_RxD	7	8	SPI0_SCLK	SPI2_CLK
UART3_RTS_N	UART0_RTS	9	10	SPI0_DIN	SPI2_DI
UART6_TXD	UART1_TxD	11	12	SPI0_CS	SPI2_CS_N
UART6_RXD	UART1_RxD	13	14	SPI0_DOUT	SPI2_DO
I2C0_SCL	I2C0_SCL	15	16	PCM_FS	GPIO_195_I2S0_XFS
I2C0_SDA	I2C0_SDA	17	18	PCM_CLK	GPIO_194_I2S0_XCLK
I2C7_SCL	I2C1_SCL	19	20	PCM_DO	GPIO_193_I2S0_DO
I2C7_SDA	I2C1_SDA	21	22	PCM_DI	GPIO_192_I2S0_DI
GPIO_208	GPIO-A	23	24	GPIO-B	GPIO_209
GPIO_210	GPIO-C	25	26	GPIO-D	GPIO_211
GPIO_212	GPIO-E	27	28	GPIO-F	LCD_BL_PWM
LCD_TE0	GPIO-G	29	30	GPIO-H	GPIO_040_LCD_RST_N
GPIO_052_CAM0_RST_N	GPIO-I	31	32	GPIO-J	GPIO_019
GPIO_075_CAM1_RST_N	GPIO-K	33	34	GPIO-L	GPIO_021
VOUT11_1V8/2V95	+1V8	35	36	SYS_DCIN	SYSDC_IN
SYS_5V	+5V	37	38	SYC_DCIN	SYSDC_IN
GND	GND	39	40	GND	GND

UART {3/6}

The 96Boards specifications calls for a 4-wire UART implementation, UART0 and an optimal second 2-wire UART, UART1 on the Low Speed Expansion Connector.
The HiKey960 Development Board implements UART3 as a 4-wire UART that connects directly to the main SoC. These signals are driven at 1.8V.
The HiKey960 Development Board implements UART6 as a 2-wire UART that connects directly to the main SoC. These signals are driven at 1.8V.

I2C {0/1}

The 96Boards specification calls for two I2C interfaces to be implemented on the Low Speed Expansion Connector.
The HiKey960 Development Board implements both interfaces named I2C0 and I2C7. They connect directly to the Kirin960 SoC. Each of the I2C lines is pulled up to VIO18_PMU via 1K resistor.

GPIO {A-L}

The 96Boards specification calls for 12 GPIO lines to be implemented on the Low Speed Expansion Connector. Some of these GPIOs may support alternate functions for DSI/CSI control The HiKey960 board implements this requirement. All GPIOs are routed to the Kirin960 SoC. Take Low Speed Expansion Connector for reference.

SPI 0

The 96Boards specification calls for one SPI bus master to be provided on the Low Speed Expansion Connector.
The HiKey960 Development Board implements a full SPI master with 4 wires, CLK, CS, MOSI and MISO. The signals are connected directly to the Kirin960 SoC and driven at 1.8V.

I2S

The 96Boards specification calls for one PCM/I2S bus to be provided on the Low Speed Expansion Connector. The CLK, FS and DO signals are required while the DI is optional.
The HiKey960 Development Board implements a I2S interface with 4 wires, CLK, FS, DO and DI. The signals are connected directly to the Kirin960 SoC and driven at 1.8V.

Power and Reset

The 96Boards specification calls for a signal on the Low Speed Expansion Connector that can power on/off the board and a signal that serves as a board reset signal.
The HiKey960 Development Board routes the PWR_BTN_N (named PWRKEY on schematic) signal to the PWRKEY pin of the PMIC. This signal is driven by s2201 as well, the on-board power on push-button switch. A mezzanine implementation of this signals should not drive it with any voltage, the only allowed operation is to force it to GND to start the board from a sleep mode.
The HiKey960 Development Board routes the RST_BTN_N (named exp_rstout_n on schematic) signal to the HRESET_N pin of the PMIC Hi6421.

Power Supplies

The 96Boards specification calls for three power rails to be present on the Low Speed Expansion Connector:

+1.8V Max of 100mA
+5V Provide a minimum of 5W of power (1A).

SYS_DCIN 8-18V input with enough current to support all the board functions or the output DCIN from on-board DC Connector able to provide a minimum of 7W of power.

The HiKey960 Development Board supports these requirements as follows:

+1.8V Driven by PMIC up to 150mA.
+5V Driven by a 5A DC-DC buck converter (U403). It also provides the VBUS power to the two USB host connectors (J1702, J1801) and the HDMI 5V power to the HDMI connector (J1901).The remaining capacity provides a total of 7W which meets the 96Boards requirements.

High Speed Expansion Connector[td]

HiKey960 Signals	96Boards Signals	PIN	PIN	96Boards Signals	HiKey960 Signals
GPIO_148_SPI3_DO	SD_DAT0/SPI1_DOUT	1	2	CSI0_C+	CSI0_CLK_P
UART0_IRDA_RXD	SD_DAT1	3	4	CSI0_C-	CSI0_CLK_N
UART0_IRDA_TXD	SD_DAT2	5	6	GND	GND
GPIO_149_SPI3_CS0_N	SD_DAT3/SPI1_CS	7	8	CSI0_D0+	CSI0_DATA0_P
GPIO_146_SPI3_CLK	SD_SCLK/SPI1_SCLK	9	10	CSI0_D0-	CSI0_DATA0_N
GPIO_147_SPI3_DI	SD_CMD/SPI1_DIN	11	12	GND	GND
GND	GND	13	14	CSI0_D1+	CSI0_DATA1_P
ISP_CCLK0_MCAM	CLK0/CSI0_MCLK	15	16	CCSI0_D1-	CSI0_DATA1_N
ISP_CCLK1_SCAM	CLK1/CSI1_MCLK	17	18	GND	GND
GND	GND	19	20	CSI0_D2+	CSI0_DATA2_P
DSI2_CLK_P	DSI_CLK+	21	22	CSI0_D2-	CSI0_DATA2_N
DSI2_CLK_N	DSI_CLK-	23	24	GND	GND
GND	GND	25	26	CSI0_D3+	CSI0_DATA3_P
DSI2_DATA0_P	DSI_D0+	27	28	CSI0_D3-	CSI0_DATA3_N
DSI2_DATA0_N	DSI_D0-	29	30	GND	GND
GND	GND	31	32	I2C2_SCL	ISP_SCL0
DSI2_DATA1_P	DSI_D1+	33	34	I2C2_SCL	ISP_SDA0
DSI2_DATA1_N	DSI_D1-	35	36	I2C3_SDA	ISP_SCL1
GND	GND	37	38	I2C3_SDA	ISP_SDA1
DSI2_DATA2_P	DSI_D2+	39	40	GND	GND
DSI2_DATA2_N	DSI_D2-	41	42	CSI1_D0+	CSI1_DATA0_P
GND	GND	43	44	CSI1_D0-	CSI1_DATA0_N
DSI2_DATA3_P	DSI_D3+	45	46	GND	GND
DSI2_DATA3_N	DSI_D3-	47	48	CSI1_D1+	CSI1_DATA1_P
GND	GND	49	50	CSI1_D1-	CSI1_DATA1_N
USB2DN_DP4_CON	USB_D+	51	52	GND	GND
USB2DN_DM4_CON	USB_D-	53	54	CSI1_C+	CSI1_CLK_P
GND	GND	55	56	CSI1_C-	CSI1_CLK_N
NC	HSIC_STR	57	58	GND	GND
NC	HSIC_DATA	59	60	RESERVED	Pull-up vout2_1v8

MIPI DSI 0

The 96Boards specification calls for a MIPI-DSI to be present on the High Speed Expansion Connector. A minimum of one lane is required and up to four lanes can be accommodated on the connector.
The Hikey960 Development Board implementation supports a full four lane (1.2Gbps/lane) MIPI-DSI interface that is routed to the High Speed Expansion Connector. The MIPI-DSI signals are directly connected to DSI-0 of Kirin960.

MIPI CSI {0/1}

The 96Boards specification calls for two MIPI-CSI interfaces to be present on the High Speed Expansion Connector. Both interfaces are optional. CSI0 interface can be up to four lanes while CSI1 is up to two lanes.
The Hikey960 Development Board implementation supports a full four lane MIPI-CSI interface on CSI0 and two lanes of MIPI-CSI on CSI1. All MIPI-CSI signals are routed directly to/from the Kirin960 SoC. CSI0 can support up to 26M@30fps and CSI1 can support up to 8M@30fps. The max data rate of each lane is 2.5Gbps.

I2C {2/3}

The 96Boards specification calls for two I2C interfaces to be present on the High Speed Expansion Connector. Both interfaces are optional unless a MIPI-CSI interface has been implemented. Then an I2C interface shall be implemented.
The Hikey960 Development Board implementation supports two MIPI-CSI interfaces and therefore must support two I2C interfaces,they are ISP_I2C0 and ISP_I2C1. Each of the I2C lines is pulled up to VIO18_PMU via 1K resistor.

SD/SPI

The 96Boards specification calls for an SD interface or a SPI port to be part of the High Speed Expansion Connector.
The Hikey960 Development Board implements a full SPI master with 4 wires (96Boards SPI Configuration), CLK, CS, MOSI and MISO. All the signals are connected directly to the Kirin960 SoC. These signals are driven at 1.8V.

Clocks

The 96Boards specification calls for one or two programmable clock interfaces to be provided on the High Speed Expansion Connector. These clocks may have a secondary function of being CSI0_MCLK and CSI1_MCLK. If these clocks can’t be supported by the SoC than an alternative GPIO or No-Connect is allowed by the specifications.
The Hikey960 Development Board implements two CSI clocks which are connected directly to the Kirin960 SoC. These signals are driven at 1.8V.

USB

The 96Boards specification calls for a USB Data line interface to be present on the High Speed Expansion Connector.
The Hikey960 Development Board implements this requirement by routing USB channel 4 from the USB HUB to the High Speed Expansion Connector.

HSIC

The 96Boards specification calls for an optional MIPI-HSIC interface to be present on the High Speed Expansion Connector.
The Hikey960 Development Board implementation doesn’t support this optional requirement.

Reserved

The pin 60 of the High Speed Expansion Connector is pulled up to VIO18_PMU via 100K resistor.

Power Management OverviewDC Power Input

An 8V to 18V power from a dedicated DC jack J901.
An 8V to 18V power from the SYS_DCIN pins on the Low Speed Expansion Connector CON7001.

Note: Please refer to the mechanical size of the DC plug below.The inside diameter of the plug is 1.7mm，the outer diameter of the plug is 4.75mm.The positive electrode of the DC plug is in the inside, and the negative pole is outside.

Voltage Rails[td]

Circuit Type	Net Name	Default ON Voltage(V)	Iout Max (mA)	Expected use
BUCK	SYS_5V	5	5000	system 5V
	VDD_4V2	4.2	5000	system power
	VDD_CPU_B	0.8	16000	4*Cortex A73
	VDD_CPU_L	1.05	30000	4*Cortex A53
	VDD_GPU	0.8	12000	Core power for GPU
	Vbuck0_0V8	0.8	2500	core power for PERI
	Vbuck1_1V1	1.1	3000	DRAM and LDO
	Vbuck2_1V45	1.45	2500	power for LDO
	Vbuck3_2V15	2.15	2500	power for LDO
LDO	LDO0	0.8	300	UFS,sys
	LDO1	1.29	300	HDMI V1P2
	LDO2	1.8	800	1.8V IO
	LDO3	1.85	300	HDMI
	LDO5	1.8	500	MIPI phy,DDR phy,HKADC
	LDO7	1.8	300	ABB,PLL
	LDO8	1.8	300	sys PLL
	LDO9	1.8/2.95	150	SD card IO
	LDO10	3.2	100	USB phy 3.3V
	LDO11	1.8	150	40 pin connector
	LDO15	3	600	UFS
	LDO16	2.95	800	SD card
	LDO21	1.8	200	efuse_sys
	LDO26	1.8	50	19.2M XO
	LDO29	1.2	200	UFS 1.2V
	LDO30	0.8	300	UFS 0.8V
Other	HDMI_5V	5		HDMI output voltage
	VBUS_HOST1	5		USB host1 output voltage(CON6401)
	VBUS_HOST2	5		USB host2 output voltage(CON6402)
	VIO18_PMU	1.8		1.8V on LS connector
	SYS_5V	5		5V on LS connector
	DC_IN	8 ~ 18		8-18V DCIN on LS connector as output