A388 SOM Hardware User Manual

Revision and Notes

A388 SOM Block Diagram

Below is the block diagram description of the A388 SOM:

A388 SOM block diagram

Connecting to the A388 SOM

The A388 SOM has two Board-to-Board connectors used to connect to the carrier board. The SOM uses an 80 pin header from Hirose {part number “DF40C-80DP-0.4V{51)“). The carrier board must use a mating Hirose Receptacle such as the “DF40C-80DS-0.4V{51)” {producing 1.5mm mating height). Other Receptacles can be used to produce different mating heights up to 4.0mm.

The Board-to-Board pins are used for a variety of functionalities and purposes. The following sections describe those in detail.

Power and Power Management

The A388 SOM has one global ground domain, four power input domains and one power output domain.

Name

Description

Voltage

Power

Notes / Instructions

GND

Global Ground Net

N/A

N/A

Connect to carrier ground plane.

B2B V MAIN

Main voltage domain

3.3v-5.0v

7.5W1

Connect to 5.0V DC-DC output or to 3.3V DC-DC output {or any value

between).

B2B V 3V3

Low speed I/O domain

3.3V

0.75W

Connect to 3.3V DC-DC output.

B2B V RTC

 

3.0V – 3.3V

~0w

Recommend to use two diodes to connect to backup battery and to B2B V 3V3

B2B V 1V8 VHV

 

1.8V

~0w

Connect to B2B V 1V8 to enable programming internal fuses. Otherwise keep floating.

Notes:

  1. Power consumption of 7.5W on B2B V MAIN domain assuming all devices are assembled and all functions are operating at full utilization.

  2. The A388 SOM has one B2B V 1V8 output power domain which is used to power the High Speed SERDES PHYs as well as the GigE PHY. In addition to those loads, the B2B 1V8 source can provide additional 0.5A to loads on carrier board.

In addition to the power domain signals, there are other signals which are used for power management and power-up/down sequencing:

Name

Pullup/down

Description

Notes / Instructions

Name

Pullup/down

Description

Notes / Instructions

B2B 1V8 1V35 EN

None

Enable signal of SOM I/O DC- DC.

Do not float. Pullup to B2B_V_MAIN

B2B 1V8 PWR EN

PU {100 kO) to B2B V 3V3

Advance power management

Do not connect to this signal.

B2B MV VSDRAM PWR EN

PU {100 kO) to B2B V 3V3

Advance power management

Do not connect to this signal.

B2B OD 3V3 PG

PU {4.7 kO) to B2B V MAIN

Carrier based DC- DC units feeding SOM are stable. Triggers CPU/Core DC-DC to start operating.

Drive low until all power inputs to SOM are stable. Also Drive low to disable CPU/Core power domain.

B2B V CPU CORE PG

OD

Indicates that CPU/Core power domain is up. This also means all other domains on the SOM are up as well.

If this signal needs to be sampled then add a 4.7 kO pullup resistor.

Power up sequence

The A388 SOM requires that all power inputs are stable before allowing B2B OD 3V3 PG to go high. Use DC-DC devices with power-good indication and drive B2B OD 3V3 PG low as long as the power- good indications SOM voltages are driven low.

Power up sequence

The A388 SOM requires that all power inputs are stable before allowing B2B OD 3V3 PG to go high. Use DC-DC devices with power-good indication and drive B2B OD 3V3 PG low as long as the power- good indications SOM voltages are driven low.

Name

Pullup/down

Description

Notes / Instructions

Name

Pullup/down

Description

Notes / Instructions

B2B MRN

PU {100 kO) to B2B V 3V3

Manual Reset input. B2B SYSRST OUTN is driven low for as long as B2B MRn is driven low plus additional 100mS after B2B MRn is de-asserted.

Connect to system push button reset or other system reset triggers. Make sure it is pulled high when not active. See ClearFog Pro reference design schematics.

B2B SYSRST OUTN

PU {4.7 kO) to B2B V 3V3

Active low reset output asserted when B2B MRn is asserted, plus additional 100mS. Power on reset circuit will trigger B2B SYSRST OUTN as well.

This signal should be used to reset any device in the system that is intended to be reset by the B2B MRn reset event.

B2B SYSRST INN

None

Armada 388 input reset signal.

Short to B2B SYSRST OUTN to trigger Armada 388 reset on B2B MRn reset trigger event.

Multi-Purpose Pins (MPP)


The Armada 388 has 60 Multi Purpose Pins. Each of those can be programmed to be a GPIO, Interrupt

input or have a specialized function. Appendix-A for details.

Out of the 60 pins 12 signals are used as RGMII0 on the SOM to connect to the GigE PHY and are not connected to the Board-to-Board {except MPP[7:9] who are exposed to the Board-to-Board for the mere purpose of sampling at reset the boot select field.). The remainder pins can be used as GPIO, Interrupt input, UART, I2C, SPI, SDIO, PWM and more. Check spreadsheet in Appendix-A for more details.

Please notice that, if assembled, the onboard SPI ROM is connected to B2B MPP pins 56:59. Also, if assembled the eMMC device on the SOM is connected to B2B MPP pins 21, 28 and 37:40. If assembled those signals are terminated at the eMMC device and are not exposed to the Board-to-Board connector. Otherwise they are connected to the Board-to-Board in order to be potentially used on the carrier board.

For proper operation of the system, special attention is required for the following.

Board-to-Board signal

Domain

Default Pull up/down

Special function / instructions.

Board-to-Board signal

Domain

Default Pull up/down

Special function / instructions.

B2B UA0 RXD {MPP0)

V 3V3

PD

 

B2B UA0 TXD {MPP1)

V 3V3

PD {510 O)

Reserved. Pull down or float during reset.

B2B I2C0 SCK {MPP2)

V 3V3

PU {4.7 kO)

 

B2B I2C0 SDA {MPP3)

V 3V3

PU {4.7 kO)

 

B2B GE MDC {MPP4)

V 1V8

PD {510 O)

CPU0 Endianess. Do not modify default pull-
up/down during reset.

B2B BOOT SEL 0 {MPP7)

V 1V8

PD

Boot Device Mode[0]. Pull-up/down based on
desired boot device.

B2B BOOT SEL 1 {MPP8)

V 1V8

PU

Boot Device Mode[1] ]. Pull-up/down based on
desired boot device.

B2B BOOT SEL 2 {MPP9)

V 1V8

PU

Boot Device Mode[2] ]. Pull-up/down based on
desired boot device.

B2B MPP22

V 3V3

PD

CPU0 Thumb Exception Init. Do not modify default
pull-up/down during reset.

B2B MPP23

V 3V3

PU

PCI0 Express Clock Configuration

B2B MPP28

V 3V3

PD

I2C Serial ROM Initialization

B2B MPP29

V 3V3

PD

Core Clock Frequency Select

B2B MPP30

V 3V3

PD

CPU Subsystem Clock Frequency Options[1]

B2B MPP31

V 3V3

PU

CPU Subsystem Clock Frequency Options[2]

B2B MPP32

V 3V3

PD

CPU0 NMFI Enable. Do not modify default pull-
up/down during reset.

B2B MPP33

V 3V3

PD

CPU Subsystem Clock Frequency Options[0]

B2B MPP34

V 3V3

PU

CPU Subsystem Clock Frequency Options[3]

B2B MPP35

V 3V3

PD

CPU Subsystem Clock Frequency Options[4]

B2B MPP36

V 3V3

PU

Reserved. Do not pull up or down during reset.

B2B MPP38

V 3V3

PU

Revision ID - Do not pull up or down during reset.

B2B MPP39

V 3V3

PU

Revision ID - Do not pull up or down during reset.

B2B MPP40

V 3V3

PU

Revision ID - Do not pull up or down during reset.

B2B MPP42

V 3V3

PU

Boot Device Mode[4] ]. Pull-up/down based on
desired boot device.

B2B MPP44

V 3V3

PU

Reserved. Do not pull up or down during reset.

B2B MPP47

V 3V3

PD

Reserved. Do not pull up or down during reset.

B2B MPP51

V 3V3

PD

SSCG Disable. Do not modify default pull-up/down
during reset.

B2B MPP56

V 3V3

PU

Boot Device Mode[5] ]. Pull-up/down based on
desired boot device.

B2B MPP57

V 3V3

PD

Boot Device Mode[3] ]. Pull-up/down based on
desired boot device.

High Speed SERDES

A388 SOM modules based on Marvell 88F6810 SoC {single core) have five High Speed SERDES lanes and modules based on Marvell 88F6820 and 88F6828 SoC have 6 lanes. The high speed lanes can be configured to support PCIe gen 2, SATA gen 3 {6Gbps), SGMII {up to 2.5Gbps), QSGMII or USB-3.0.


USB Host Connectivity

USB Device connectivity



Integrated GigE PHY

A GigE PHY {Marvell 88E1512) is integrated into the A388 SOM and is connected to MAC0 via the SoC’s RGMII-0 interface. The following PHY interfaces are exposed to the Board-to-Board connector.

Interface

Domain

Pullup/down

Special function / instructions.

Interface

Domain

Pullup/down

Special function / instructions.

MDIO

N/A

N/A

Four Differential pairs carrying network traffic.

B2B PHY1 INTN

B2B V 1V8

PU {10 kO)

Interrupt output of GigE PHY

B2B PHY1 RSTN

B2B V 1V8

PU {4.7 kO)

Reset input of the GigE PHY.

B2B GE1 LED1 K

B2B V 1V8

510 O series resistor

Drive low on link. Blink on activity.1

B2B GE1 LED2 K

B2B V 1V8

510 O series resistor

Drive low on 1000Mbps link1

 

Note

Based on default PHY device driver programming of PHY configuration registers.

Following is one way of connecting the B2B GE1 LEDx K signals to the actual LED devices. Notice that the LED devices must have a high enough Vf {Forward voltage) to ensure no light is emitted when the B2B GE1 LEDx K signals are high {approximately 1.8v).



Miscellaneous

Setting