OXY5313A
3.5" SBC Intel® Pineview D525 CPU with DDR3 SO-DIMM, Dual Display by VGA/LVDS, Dual GbE LAN, Audio, 8 x COM, 8 x USB, and 12V DC-in -40°C to 85°C
- Supports Intel® Atom™ D525 CPU onboard
- Single/dual channel 18/24-bit LVDS
- 1 x Mini PCIe slot
- 5 x COM ports
- 7 x USB ports
- 12V DC-in
- Extended temp. -40°C to 85°C
- Technical Profile
- Specifications
- CPU
- SSD Performance
- Thermal Solution
Introduction
OXY5313A is a 3.5” industrial motherboard, driven by Intel® Atom Pineview D525 CPU onboard and ICH8M chipset. Extreme low power consumption of Processor Atom Pineview D525 plus Intel ICH8M chipset is only 13W and 2.4W respectively. Powerful dual-core operation and energy-saving low power design make OXY5313A an ideal candidate for display and automation applications. It supports AC/DC power convert function, which provides a more flexible power selection. VGA & CPU onboard design creates a higher ability to withstand vibration and shock. Extended temperature operation from -40 to +85°C ensures unbeatable reliability. Fast processor equips with rich legacy I/O features such as: 8 COM ports; 8 Bit DIO; 8 x USB; Single 18-bit LVDS. With such extensive functions and powerful computing ability, OXY5313A can fulfill diverse needs of modern day display & monitor control applications.
Rich I/O interface – Extensive Functionality
Rich I/O design endows OXY5313A with the ability to comprehend present day automation, display, and other applications that require extensive I/O features. With 8 COM ports, 8 USB, 2 LAN, 2 SATAII and dual-display (VGA+LVDS), OXY5313A provides a wide array of choices to expand and connect to different devices.
Extended Temperature Operation
PERFECTRON aims to provide excellent performance to all types of temperature zone. From component selection to layout design, we dedicate our knowledge to make sure that our boards can stand extreme temperature. OXY5313A can operate from -40 up to 85 degree, our strict manufacture procedure guarantees supreme performance in severe environment.
Efficient thermal solution
Thermal pad and heat sink are used to make up an effective thermal solution. For OXY5313A, the thermal pad is placed on top of the CPU, acting as a supportive medium to dissipate the heat to the surrounding atmosphere. The thermal pad is of the perfect thickness (3mm) to deliver the best performance. An aluminum heat sink is fixed on top of the thermal pad to quick the whole dissipation process.
Installation Instruction
Procedure: Place the thermal pad on top of the CPU, and then stick the heat sink upwards.
Thermal Pad
Thermal pad is widely used to aid the conduction of heat away from the component that needs to be cooled down (e.g. CPU) and into the heat sink.
•To determine the effectiveness of a thermal pad, the unit “K” is applied. Most of the other companies in the embedded market employ materials under K10 for economic reason. Perfectron, with the target of reaching CPU full speed without throttling, incorporates only K17 military grade as our principle specification.
• The thinner the thermal pad is the better effect it creates. The thickness of the thermal pad is crucial, be it too thick, the heat will cumulate and force the heat dissipated by the CPU to flow back.
•With precise calculation, the thermal pad we implemented is 3mm in height.
Heat Sink
Heat sink is known for improving the distribution of heat. Our tailor-made heat spreader is made with and aluminum. It can dissipate the heat in the quickest fashion.
•It contains 96% of aluminum, 48mm height and weighs 15g.
•Thermal paste is applied to give mechanical strength to the bond between heat sink and heat source. It eliminates air from the surface area and optimizes the heat transfer between the two contact surfaces.
•Dissipate heat quicker than copper owing to lower heat conductivity efficiency. (Copper: 402; Aluminum: 266)
•Excellent performance in heat dissipation.
Operating Temp.
Can withstand extended temperature from -40°C to 85°C – board level
Operating Temp. |
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|---|---|
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UT : -40°C °C 85°C |
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System |
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CPU |
Intel® Atom™ D525 1.80 GHz onboard |
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Chipset |
Intel® 82801HBM ICH8 Mobile (ICH8M) |
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Memory Type |
1 x 204-pin SO-DIMM DDR3 800 MHz up to 4 GB |
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BIOS |
AMI® BIOS |
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Super I/O |
ITE IT8781F |
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2nd Super I/O |
Fintek F81216AD |
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Watchdog |
1-255 sec. or 1-255 min. software programmable, can generate system reset |
Expansion Slot |
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Mini PCIe |
1 x miniPCIe for Gen2 |
Display |
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Chipset |
Integrated Intel® GMA3150 Graphic core |
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Onboard VGA |
Yes (Max. resolution 2048 x 1536 @ 60 Hz) |
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LVDS |
Supports single channel 18-bit LVDS (Max. resolution 1366 x 768) |
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Dual Independent |
VGA + LVDS |
Audio |
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Codec |
Realtek ALC662 High Definition Audio Codec *2W amplifier onboard |
Ethernet |
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Chipset |
2 x RTL8111DL GbE LAN (support 10/100/1000 Mbps for 2 x RJ45 ports) |
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WOL |
Yes |
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Boot from LAN |
Yes for PXE |
Rear I/O |
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VGA |
1 x 15-pin VGA connector (female) |
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Ethernet |
2 x RJ45 ports |
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COM |
1 x RS-232/422/485 with 5V/12V selectable |
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Serial Signals RS232: DCD-, RXD, TXD, DTR-, GND, DSR-, RTS-, CTS- RS422: TX-, RX+, TX+, RX-, GND, RS485: DATA-, DATA+, GND |
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USB |
2 x USB 2.0 |
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Reset Button |
1 |
Internal I/O |
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SATA |
2 x SATAII (3 Gb/s) |
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CF card |
1 x CF socket by IDE interface |
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USB |
6 x USB 2.0 ports by 2 x 5-pin header |
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COM |
7 x COM ports |
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COM2~COM4 ports support RS232 only with 5V/12V selectable by 1 x 10-pin header |
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Audio |
2 x 3-pin header for Mic-in/Line-in/Line-out |
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LVDS |
20-pin connector |
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PS/2 |
2 x 3-pin header |
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Parellel Port |
2 x 13-pin header |
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DIO |
8-bit (4 in/4 out) |
OS support list |
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Windows |
Windows 7 x32、Windows 7 x64 |
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Linux |
Open SUSE 12.2、Debian 7.0.0 |
Mechanical and Environment |
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Form Factor |
3.5" SBC |
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Power Type |
12V DC-in, 4-pin ATX power connector, AT/ATX mode support |
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Dimension |
146 x 102 mm (5.7" x 4") |
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Operating Temp. |
UT : -40°C to 85°C |
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Storage Temp. |
-40°C to 85°C |
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Relative Humidity |
10% to 90%, non-condensing |
Certification |
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MIL-STD-810G |
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Temperature Shock |
MIL-STD-810G Test Method 503.5 Temperature Shock Procedure I-C / Storage (Multi-cycle shocks from constant extreme temperature, Form 85°C to -40°C, Three cycle) |
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High Temperature |
MIL-STD-810G Test Method 501.5 high Temp ( 96 hours @75°C non-operating + 72 hours @ 75°C operating ) |
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Low Temperature |
MIL-STD-810G Test Method 502.5 Low Temp ( 96 hours @ -40°C non-operating +72 hours @ -40°C operating ) |
Test Result
| Device Model | OXY5313A |
|---|---|
| Tester | Ian Huang |
| Test Result | Pass |
| Test Temperature(High/Time) | 0~85°C/5 Hours |
| Test Temperature(Low/Time) | -40~0°C/2 Hours |
| Test Standard | Reference IEC60068-2 |
| Test Software | Burnin test v6.0 |
| Criteria | After testing, system can’t halt. |
Test Configuration
| Device | Configuration | Manufacturer | Part Number |
| CPU | Intel® Atom™ D525 1.80 GHz onboard | Intel | |
| PCH | Intel® 82801HBM ICH8 Mobile (ICH8M) | Intel | |
| Memory | Innodisk 2GB DDR3 1333W/T SODIMM | Innodisk | |
| port2 SATAII | Innodisk 256G SATA SSD | Innodisk | |
| USB1、USB2 | Passmark Loopback Plugs for USB 2.0 | ||
| LAN1 | Realtek 8111DL GbE
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| LAN2 | Realtek 8111DL GbE | ||
| Test Software | Burnin test v6.0、HD Tune v4.0 、iperf、Passmark USB2.0 Intel TAT_3.8.7.1104 |
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| Chamber | KSON THS-b4t-150 Chipeng SMO-3 | KSON Chipeng | THS-b4t-150 SMO-3 |
Thermal Measurement
PERFECTRON provides real lab testing figures to show how CPU performance is with each tailor made thermal kits as important references and design guide for system engineers. For system integration, the crucial challenge is the operation performance under high temperature, thus PERFECTRON conducts long time experiments to make sure the superior testing result for all critical missions. By revealing temperature at processor T junction, processor die and heat sink, PERFECTRON is able to analyse the thermal solution we designed achieves maximum efficacy and observe CPU performance. The high temperature testing takes 5 hours which at each temperature point we burn in OXY5313A for one hour, from 50°C to 85°C.
All-inclusive Thermal Solution for the best performance
The top lid of ROC315B is itself a well function heat sink. Fanless design can supply all the demands posted by high-end applications. Aluminum top lid is an effective heat sink that provides a large area for heat dissipation. The heat sink inside the system is also made of aluminum; a material fits for quick and reliable heat removal.
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Unique Tailor-made Heat Sink •It contains_____of aluminum, the height is_______ and weighs _______ . •Due to metal property, Aluminum can dissipate heat in a quick fashion. Our fin design heat sink is capable of fast and reliable heat dissipation.
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Aluminum Heat Sink •It contains 96% of aluminum, 48mm in height and weighs 103.5g. •Consumes shorter heat dissipating time owing to lower metal density • Better performance in heat dissipation
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Power Module - SK701 •Wide Input Range: 9V to 36V DC •12V DC output up to 5 Amp •Over voltage Protection/Over Current Protection •Hot swap/live insertion •Compact size: 100(W) x 30 (L) mm • Supports Extended Operating Temp. -40 to 85 degree
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OXY5313A 3.5”system mainboard OXY5313A powers up the system with maximum computing power. With the incorporation of thermal pad & heat sink, the heat generated during computing can be dissipated timely. |