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PowerBrick™6.0
User’s Manual
Edition 4.0
4 Generation Intel® i7 Industrial Computer
Acura Embedded Systems Inc.
TABLE OF CONTENTS
1.0
Introduction ......................................................................................................
1
1.1
Specification ...................................................................................................
1
1.2
System ............................................................................................................
3
Important Connector ........................................................................................
4
2.1
GPIO Connector ...........................................................................................
4
2.2
COM Port Connector.......................................................................................
4
2.3
Power Input Connector..................................................................................
5
2.4
ATX 6PIN Connector (POWER OUT)...........................................................
5
2.5
WM1780-ND Connecting to the Network.....................................................
6
3.0
Ignition Power Management.............................................................................
7
4.0
GPIO & Delay Time Setting ..............................................................................
8
4.1
GPIO & Ignition Control Register.................................................................
8
4.2
WDT Setting ....................................................................................................
10
2.0
5.0
BIOS Setting ...................................................................................................... 12
1.0
INTRODUCTION
Specification
System
Intel Gen 4 Core i7‐4650U 1.7GHz up to 3.3GHz
CPU
Memory
2 x DDR3L 1600 MHz SO‐DIMM up to 16GB
Chipset
QM87
Intel I210‐AT Gb/s Ethernet Controllers Onboard
LAN Chipset
Support POE
Audio
Realtek ALC662 HD Codec onboard
Watchdog
Watchdog Timer Support, Offer 1 – 255 Step
Power Requirement
Power Input
9V‐36V DC Power input
Power Protection
Automatics Recovery Short Circuit Protection
Power Management
Vehicle Power Ignition for Variety Vehicle
Power Off Control
Power off Delay Time Setting by Software, Default is 2 Seconds.
Battery
Internal Battery Kit for 10 Mins Operating (Optional)
Storage
2 x 2.5” Drive Bay for SATA Type HDD / SSD, Support RAID 0, 1
Type
1 x Mini‐PCIe DOM
1
Graphics
Intel® HD Graphics 5000
DirectX Video Acceleration (DXVA) for Accelerating Video
Graphics
Processing Full‐ AVC/VC1/MPEG2 HW Decode
Supports DirectX 11/10.1/10/9 and OpenGL 4.0
Resolution
Up to 4096 x 2304
Qualification
Certifications
CE, FCC Class A, EMark Compliance, EN50155, EN50121
I/O
Serial Port
4 x RS‐232 (2 with RS‐485 (Auto Direction Control))
USB Port
2 x USB 3.0 Ports, 2 x USB 2.0 Ports
LAN
4 x Ports for GbE POE (15.4W per port)
1 x VGA Connector on Rear I/O ;1 x DVI-I Connector on Rear I/O
1 x DP Port Connector on Rear I/O
(Support Dual Independent Display)
Video Port
DIO Port
4 In and 4 Out
Audio
1 x Line‐out and 1 x Mic‐in (Line‐in Optional)
SIM Card Socket
1 x SIM Card Socket Supported Onboard with eject
Environment
Operating Temp.
-40ºC ~ 70ºC (Default CPU 17Watt)
Storage Temp.
-40ºC~ 80ºC
Relative Humidity
0% RH– 95% RH
Vibration (random)
[email protected]~500 Hz with SSD
MIL‐STD‐810F, Method 514.5, Category 20, Ground
Vehicle‐Highway
Vibration Operating
Truck Storage
MIL‐STD‐810F, Method 514.5, Category 24, Integrity Test
Operating: MIL‐STD‐810F, Method 516.5, Procedure I,
Shock
Trucks and semi‐trailers=40G (11ms) with SSD
MIL‐STD‐810F, Method 516.5, Procedure V,
Crash Hazard
Ground equipment=100
Mechanical
Construction
Aluminum alloy
Mounting
Supports both of wall‐mount/VESA‐mount
Weight
1.780 kg ( 3.92 LBs)
Dimensions
250 x 150 x 55 mm
2
System
3
2.0
IMPORTANT CONNECTOR
2.1
GPIO Connector
GPIO Pin
Definition
2.2
Pin
1
3
5
7
9
Signal
GPI0
GPI2
GPO0
GPO2
GND
Pin
2
4
6
8
Signal
GPI1
GPI3
GPO1
GPO3
COM Port Connector (COM)
Connector pin
COM 1,2,3,4
Pin
1
3
5
7
9
Signal
COM1,2,3,4_DCD
(COM1,2_RS485_TXD-/RXD-)
COM_TXD
GND
COM_RTS
COM_RI#
4
Pin
2
4
6
8
Signal
COM1,2,3,4_RXD
(Com1,2_RS485_TXD+/RXD+)
COM_DTR
COM_DSR
COM_CTS
2.3
Power Input Connector
Power Input
Pin
1
GND
2
3
VIN (9-36V)
IGNITION
Power Brick 6.0 Power Wiring
2.4
ATX 6PIN Connector (POWER OUT)
Connector
location
Power Out
Pin
Signal
1 +12V
3 EXT_DI1
5 GND
5
Pin
2
4
6
Signal
Signal
+12V
GND
EXT_DI2
2.5
WM1780-ND Connecting to the Network
A. WM1780-ND to RJ45 Cable
B. WM1780-ND connector pin define
Pin
1
3
5
7
Signal
TD1+
TD2+
TD3‐
TD4+
Pin
2
4
6
8
Signal
TD1‐
TD3+
TD2‐
TD4‐
C. CAT5 connector pin define
To
Pin
1
3
5
7
Signal
TD1+
TD2+
TD3‐
TD4+
Pin
2
4
6
8
Signal
TD1‐
TD3+
TD2‐
TD4‐
6
3.0
Ignition Power Management (Optional)
Startup/shutdown conditions from the IGNITION signal:
•
IGNITION startup signal must be valid during 3 sec. (anti‐noise protection).
•
IGNITION shutdown – IGNITION signal must be inactive during 3 Sec, then
PIC controller initiate Power Button signal (OS must be set to shut down
from the Power Button). It generate Main Button shutdown event and then
goes to complete power off.
Typically the system can start only from IGNITION signal, because startup PIC controller is
disconnected from the power source.
The system can be switched off from:
•
Power IGNITION OFF signal.
•
ACPI OS shutdown
•
Power Button – generate ACPI event (OS dependent).
12V or 24V
Power Input
Check IGN
Status
IGN on (High)
more than 3sec
Status
System Turn
on
Power Ignition Startup Procedure
Delay Time Off
Delay 3 Sec
Check IGN
Status
IGN off (Low)
Check Delay
Time On / off
Delay Time On 0255 Minutes Setting
by Software
Power Ignition Shutdown Procedure
7
Shutdown from
IGN off
OS Shutdown
System
3 sec later
System Power
off
Power Management
•
Power‐off delay time is selectable by Software to disable and enable in 0‐255
minutes
•
Ignition On/Off status detectable by IGNITION CONTROL SWITCH.
•
If the ignition is off and the system is still on after 3 Sec, PowerBrick 6.0 will shut
down automatically.
•
If the ignition is turned on again and the power‐off delay is in progress, PowerBrick
6.0 will cancel the delay function and will continue to operate normally.
•
If the ignition is turned on again and the power‐off delay ended, PowerBrick 6.0
will shut down completely will power‐on again automatically.
4.0
GPIO & Delay Time Setting
4.1 GPIO and Ignition Control Register
The General Purpose I/O is an interface available on some devices. These can read
digital signals from other parts of a circuit, or output to control other devices. At GPIO
control register, the GPI is use to receive data, the GPO is set data to send.
I/O port: 0xA35 (base address) for Control Register (Read 0xA2h / Write 0xA1h)
0xA36 (base address) for Control Data Value
Debug Command Line
- O A35 A1
- O A36 0F // Set Bit 4‐7to Low
7
6
5
4
3
2
1
0
DO4
DO3
DO2
DO1
DI4
DI3
DI2
DI1
0 = is low
0 = DI is low *
1 = DO is high *
1 = DI is high
GPIO5 Output Enable Register – Index A0h
R/W Default Description
Name
Bit
7
GPIO57_OE
R/W 0
0: GPIO57 is input;
6
GPIO56_OE
R/W 0
0: GPIO56 is input;
5
GPIO55_OE
R/W 0
0: GPIO55 is input;
4
GPIO54_OE
R/W 0
0: GPIO54 is input;
3
GPIO53_OE
R/W 0
0: GPIO53 is input;
2
GPIO52_OE
R/W 0
0: GPIO52 is input;
1
GPIO51_OE
R/W 0
0: GPIO51 is input;
0
GPIO50_OE
R/W 0
0: GPIO50 is input;
8
1: GPIO57 is output
1: GPIO56 is output
1: GPIO55 is output
1: GPIO54 is output
1: GPIO53 is output
1: GPIO52 is output
1: GPIO51 is output
1: GPIO50 is output
GPIO5 Output Data Register – Index A1h
Bit
7
6
5
4
3
2
1
0
Name
GPIO57_DATA
GPIO56_DATA
GPIO55_DATA
GPIO54_DATA
GPIO53_DATA
GPIO52_DATA
GPIO51_DATA
GPIO50_DATA
R/W Default Description
R/W
1
GPIO57 output data in output mode.
R/W
1
GPIO56 output data in output mode.
R/W
1
GPIO55 output data in output mode.
R/W
1
GPIO54 output data in output mode.
R/W
1
GPIO53 output data in output mode.
R/W
1
GPIO52 output data in output mode.
R/W
1
GPIO51 output data in output mode.
R/W
1
GPIO50 output data in output mode.
GPIO5 Pin Status Register – Index A2h
Bit
7
6
5
4
3
2
1
0
Name
GPIO57_ST
GPIO56_ST
GPIO55_ST
GPIO54_ST
GPIO53_ST
GPIO52_ST
GPIO51_ST
GPIO50_ST
R/W Default Description
R
1
GPIO57 pin status.
R
1
GPIO56 pin status.
R
1
GPIO55 pin status.
R
1
GPIO54 pin status.
R
1
GPIO53 pin status.
R
1
GPIO52 pin status.
R
1
GPIO51 pin status.
R
1
GPIO50 pin status.
GPIO5 Drive Enable Register – Index A3h
Bit
Name
7
GPIO57_DRV_ENST
6
GPIO56_DRV_ENST
5
GPIO55_DRV_ENST
4
GPIO54_DRV_ENST
3
GPIO53_DRV_ENST
2
GPIO52_DRV_ENST
1
GPIO51_DRV_ENST
0
GPIO50_DRV_ENST
R/W Default Description
GPIO57 Drive Enable
R/W
0
0: GPIO57 is open drain;
GPIO57 Drive Enable
R/W
0
0: GPIO56 is open drain;
GPIO57 Drive Enable
R/W
0
0: GPIO55 is open drain;
GPIO57 Drive Enable
R/W
0
0: GPIO54 is open drain;
GPIO57 Drive Enable
R/W
0
0: GPIO53 is open drain;
GPIO57 Drive Enable
R/W
0
0: GPIO52 is open drain;
GPIO57 Drive Enable
R/W
0
0: GPIO51 is open drain;
GPIO57 Drive Enable
R/W
0
0: GPIO50 is open drain;
1: GPIO57 is push pull
1: GPIO56 is push pull
1: GPIO55 is push pull
1: GPIO54 is push pull
1: GPIO53 is push pull
1: GPIO52 is push pull
1: GPIO51 is push pull
1: GPIO50 is push pull
I/O port: I/O port: 0xA35 (base address) for Control Register (Read 0xF2h bit 3)
0xA36 (base address) for Control Data Value
9
Debug Command Line
- O A35 F2
- I A36 // Check Bit 3 Status
4.2
WDT Setting
I/O port: A10 (base address) + 05h and
06h 1 Watchdog Timer Control Register
The Watchdog Timer Control Register controls the WDT working mode. Write the value to
the WDT Configuration Port. The following table describes the Control Register bit
definition:
Debug Command Line
- O A16 05
- O A15 32 // 5 sec // 3A  5 minutes
Watchdog Timer Function
Watch dog timer is provided for system controlling. If time‐out can trigger one signal to
high/low level/pulse, the signal is depend on register setting.
The time unit has two ways from 1sec or 60sec. In pulse mode, there are four pulse
widths can be selected (1ms/25ms/125ms/5sec). Others, please refer the device
register description as below.
10
Watchdog Timer Configuration Register 1‐base address +05h
Bit Name
7
Reserved
6
WDTMOUT_STS
R/W
R
R/W
Default
0
0
5
WD_EN
R/W
0
4
WD_PULSE
R/W
0
3
WD_UNIT
R/W
0
2
WD_HACTIVE
R/W
0
1‐0 WD_PSWIDTH
R/W
0
Description
Reserved
If watchdog timeout event occurs, this bit will be set to
1. Write a 1 to this bit will clear it to 0.
If this bit is set to 1, the counting of watchdog time is
enabled.
Select output mode (0:level, 1:pulse) of RSTOUT# by
setting this bit.
Select time unit (0:1sec, 1:60sec) of watchdog timer by
setting this bit.
Select output polarity of RETOUT# (1:high active, 0:low
active) by setting the bit.
Select output pulse width of RSTOUT#
0:1 ms
1:25 ms
2:125 ms
3:5 sec
Watchdog Timer Configuration Register 2‐base address +06h
Bit
7‐0
Name
WD_TIME
R/W
R/W
Default
0
Description
Time of watchdog timer
Watchdog PME Control Register ‐base address + 0Ah
Bit
7
Name
WDT_PME
R/W
R
Default
‐‐
6
WDT_PME_EN
R/W
0
5‐1
0
Reserved
WDOUT_EN
‐‐
R/W
‐‐
0
Description
The PME Status
This bit will set when WDT_PME_EN is set and the
watchdog timer is 1 unit before time out (of time out)
0 : Disable Watchdog PME.
1 : Enable Watchdog PME
Reserved
0 : disable Watchdog time out output via WDTRST#
1 : enable Watchdog time out output via WDTRST#
11
6.0
BIOS Setting
Super IO Configuration
Select Serial Port Mode
Select Power off Delay Time
12
With the unique set of products, Acura Embedded Systems remains committed to its goal of
providing trouble-free and customer-friendly service. A special customer service unit has
been set up specifically to cater to our esteemed customers' needs.
Technical Support:
For technical support contact your Salesperson
[email protected]
Mailing address:
Acura Embedded Systems Inc.
Unit #1, 7711-128th Street, Surrey, BC V3W 4E6, CANADA
Ph: (604) 502-9666 Fax: (604) 502-9668
Toll Free 1-866-502-9666
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