SR100-X3 Intel® 7 Gen. Core™ i7 MIL-STD Fanless Rugged System
Intel® QM175 MIL-STD Fanless Rugged System with Intel® Core™ i7 Kaby Lake Processor, 9V to 36V DC-in, Wide Temp. -40°C~70°C
- 7th Generation Intel® Core™ i7 Kaby Lake processors (BGA)
- SO-DIMM up to 32 GB RAM
- mSATA 512GB
- Multi-Displays by 2 x DP, 1 x DVI-I
- 1 x mPCIe Expansion slot (One Co-Layout with mSATA)
- 2 x PCIe Intel® Gigabit Ethernet
- 4 x USB 3.0, 1 x COM ports
- 9V~36V DC-in with power delay on/off
- Extended Temperature -40°C to 70°C
- Technical Profile
- Specifications
- CPU
- SSD Performance
- Thermal Solution
- Certification
Introduction
The SR100-X3 based on Intel® KabyLake QM175 chipset, is powered by Intel® 7th generation Core™ i7/i5/i3 processor onboard. The SR100-X3 can operate effectively in harsh environment under temp range from -40 to 70°C and is a perfect solution for military, transportation, factory automation and digital signage applications. SR100-X3 is based on EBX form factor which features with stackable PCIe/104 and FPE expansions, on board Nano SATA(3.0)16/32 Giga Byte SSD and SO-DIMM up to 32GB. It supports triple-display, 2 DP and 1 DVI-I, 2 GIGA LAN port, 4 USB 3.0, 1 COM port and 2 mPCIe Expansion slots (one co-layout with mSATA). SR100-X3 supplies wide power voltage from 9 to 36V DC-in.
- Frame Grabber Card (Analog to Digital / PAL )
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Frame grabbers may be used in military applications. For instance, when a potential breach of abnormal signal is detected, a frame grabber captures an image or a sequence of images in digital form, and then transmits the data to pilots or command control center. SR100-X3 support frame grabber cards expansion to be better process data promptly to meet front line needs, to collect useful images and help pilots to react promptly on the ever-changing battlefield.
Digital HD-SDI video input
1CH, Mini PCIe HW encode video capture card
Analogic PAL video input
4CH, Mini PCIe Video Capture Card
Analogic PAL video output
1CH, Scan Converter Board
- Unique Features
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Effective cooling solution for thermal design
7starlake implements unique cooling solution on SR100-X3 to achieve maximum heat dissipation with copper heat spreader, pure copper heat pipe and aluminum heat sink. With the aluminum heat sink enclosure allows dual-sided heat dissipation. We especially adopt the physical property of copper and aluminum, the copper heat spreader touches the heat source - processor and chipset and absorbs the heat rapidly, the heat then transfer to heat pipe; heat pipe is two-phase heat transfer involves the liquid-vapor phase change of a working fluid, the aluminum heat sink dissipates the heat into surrounding air promptly. With the benefits of fanless design, SR100-X3 can ensure high reliability and stability while working under wide range temperature from -40 up to 70°C.
MIL-STD-810G standard designed for shock and vibration
SR100-X3 is designed to meet MIL-STD-810G standard for shock and vibration. MIL-STD-810G standard is considered the upmost principle, which guarantees the system achieves superior quality and stability when operate under extreme harsh environment. We have conducted the test with series of testing procedures for resistance to shock, vibration, dust, humidity, and extreme temperatures. What’s more to make the system more rugged is SR100-X3 designed with EBX form factor and stackable ability. With those two features can provide maximum exceeding solidity when stacking together to prevent loose from vibration. With key components- CPU and SSD soldering on board to enhance the capability of shock and vibration.
Stackable with PCIe/104 & FPE expansion
Known for application ruggedness, reliability, sealing properties, and compactness characteristics, PCIe/104 & FPE connectors are ideal for high-end electronic equipment and use in extreme environment conditions. With easy connect/disconnect and blind mating, SR100-X3 has a functional life greater than 10,000 mating cycles. The PCIe/104 connector on SR100-X3 that specifies standard of SAMTEC Q2™ QMS/QFS series in a three bank (156-pin) orientation for module stacking. SAMTEC designed the QMS/QFS series with a 15.24 mm stack height for top and bottom board stacking. And the Q2™ has triple the wipe of many high-speed mezzanine interconnects making SR100-X3 the best choice for tough environmental conditions.
- System main board: EBX SBC-OXY5740
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1. Intel Core i7 CPU soldering onboard
OXY5740 is based on EBX rugged single board computer, powered by Intel Kaby Lake i7-7830EQ quad core processor plus QM175 chipset soldered onboard. With processor soldering on board can enhance the resistance of shock and vibration to allow product operates under every possible condition. With processor solder on board would lower resistance and inductance at the connection enhance effective transmission that could guarantee better and more high frequency performance for the system.
2. Expandable by Extension Storage Module, the SK401
SR100-X3 carries stacking PCIe 104 and FPE expansion slot, which allows the system with optional module connects ability to increase a variety of possibility for device, connects. SR100-X3 can use with stackable storage module SK401. With SK401 storage module stacking on board can additionally support 2x 2.5”SSD or HDD and 2x mSATA. The SK401 supports OS of Win 7, Win XP, Linux, DOS, etc.
3. Wide range DC input from 9V~ 36V
For certain application such like transportation and military always challenge the risk of unstable power that might cause damage to the system. Wide range DC input becomes an indispensable element for those applications. SR100-X3 supports Wide range 9V~ 36V DC-in to protect system from damage caused by sudden surge or peak voltage. This feature guarantees the system increasing migration path flexible and eliminates redesign of existing power architecture.
Operating Temp. |
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|---|---|---|
| -40°C~70°C | ||
System |
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| CPU | Intel® Core™ i7 KabyLake , BGA type Intel® Core i7-7820EQ (4C x 3.4/2.4 GHz GHz), 6M Cache (45W) |
|
| Chipset | Intel® QM175 PCH | |
| Memory Type | 1 x DDR4 SO-DIMM up to 32 GB with ECC | |
| Expansion Slot | 2 x mPCIe (1 x colay with mSATA) for GEN2 | |
| Storage Device | mSATA 512GB | |
| Ethernet Chipset | Intel® I210IT & i217LM GbE | |
Front I/O |
||
| Power Button | 1 with back light | |
| Power LED | 1 | |
| HDD LED | 1 | |
| LAN LED | 2 sets | |
| USB | 2 x USB 3.0 | |
| POWER | 1 x Terminal Block | |
Rear I/O |
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| DisplayPort | 2 x 20-pin DP connector (female) | |
| DVI-I | 1 x 29-pin DVI-D connector (female) | |
| Ethernet | 2 x RJ45 ports | |
| Audio | Mic-in, Line-out | |
| COM | 2x RS-232/422/485 ports, Jumper-selectable (DB9 male) Serial Signals RS232: DCD-, RXD, TXD, DTR-, GND, DSR-, RTS-, CTS- RS422: TX-, RX+, TX+, RX-, GND RS485- 4W: TxD+, TxD-, RxD+, RxD-, GND RS485- 2W: DATA-, DATA+, GND |
|
| Audio | 1 x MIC, 1 x Line out | |
| USB | 2 x USB 3.0 | |
Display |
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| Display Interface | DVI-I interface x 1: 29-pin DVI-I connectors(female); resolution up to 1920 x 1200@60 Hz; Display port interface x 2: 20-pin display port connectors (female); resolution up to 3840 x 2160@60 Hz |
|
| Graphics Controller | Onboard Intel® HD 4600 graphics | |
OS support list |
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| Windows | Windows 8 x32/x64、Windows 8.1 x32/x64、Windows 10 x32/x64 | |
| Linux | Fedora 20、Ubuntu 13.04、Ubuntu 13.10、Ubuntu 14.04 | |
Mechanical and Environment |
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| Power Requirement | 9V to 36V DC-in, AT/ATX mode with power delay on/off | |
| Dimension | 250 x 149 x 76 mm | |
| Operating Temp. | -40°C to 70°C(ambient with air flow) | |
| Storage Temp. | -40°C to 85°C | |
| Relative Humidity | 5% to 95%, non-condensing | |
Test Standard |
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| MIL-STD-810G Test | Method 507.5, Procedure II (Temperature & Humidity) Method 516.6 Shock-Procedure V Non-Operating (Mechanical Shock) Method 516.6 Shock-Procedure I Operating (Mechanical Shock) Method 514.6 Vibration Category 24/Non-Operating (Category 20 & 24, Vibration) Method 514.6 Vibration Category 20/Operating (Category 20 & 24, Vibration) Method 501.5, Procedure I (Storage/High Temperature) Method 501.5, Procedure II (Operation/High Temperature) Method 502.5, Procedure I (Storage/Low Temperature) Method 502.5, Procedure II (Operation/Low Temperature) Method 503.5, Procedure I (Temperature shock) |
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| EMC | CE and FCC compliance | |
| Green Product | RoHS, WEEE compliance |
The rugged MIL-STD compliant system, SR100-X3 is equipped with highly effectively heat conductive and heat convective thermal solutions to meet extended temperature requirements. The heat conductive solutions uses an aluminum flat mass to place in direct contact with the processor and chipset, the heat from chips then transfers it to the case of the system via 8.0 mm copper heat pipes. In addition, the convective thermal solutions introduce airflow directed to move across the surface of a fin style heatsink placed on top of the processor and chipset. This can be done with the aid of an appropriately sized fan placed in top of the fin style heatsink. Alternately, enclosure airflow can be routed to flow across a fin style heatsink.
| Device Model | SR100 |
| Tester | Ian Huang |
| Test Result | Pass |
| Test Temperature | High 0°C~75°C / Low -40°C~0°C |
| Test Time | 9Hours / 1.5Hours |
| Test Standard | Reference IEC60068-2 |
| Test Software | Burnin test v6.0 |
| Criteria | After testing, system can't halt. |
- Test Configuration
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Device
Configuration
CPU
Intel® Core i7-7820EQ 3.0GHz
PCH
Mobile Intel QM175 Express Chipset
Memory
Swissbit SO-DIMM 4 GB DDR4-1600
port3 SATAII
Innodisk 3ME3 mSATA 64GB
port4 SATA II
Apacer 64GB Onboard SSD
LAN1
Intel(R) I210 Gigabit Network Connection
LAN2
Intel(R) I217-LM Ethernet Connection
Test Software
Burnin test v6.0、AS SSD Benchmark
Intel Extreme Tuning Utility 4.3.0.11Chamber
KSON THS-b4t-150 Chipeng SMO-3
- Thermal Measurement
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7starlake 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 performanceunder high temperature, thus 7starlake conducts long time experiments tomake sure the superior testing result for all critical missions. By revealing temperature at processor T junction, processor die and heat sink, 7starlake 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 SR100-X3 for one hour, from 50°C to 85°C.
SR100-X3 MB HeatSink - IO Performance
| Point | -40°C | 25°C | 40°C | 45°C | 50°C | 55°C | 60°C | 65°C | 70°C | 75°C |
| CPU T-J | 0 | 80 | 81 | 89 | 94 | 99 | 99 | 100 | 100 | 100 |
| CPU Die | -24.3 | 66.4 | 70 | 75.7 | 83 | 89 | 88.1 | 93.9 | 95.6 | 98 |
| Heatsink | -32.8 | 58 | 60.5 | 65.5 | 72.3 | 77.7 | 77.9 | 84.7 | 875 | 90.7 |
| Δ1=(TJ-Die) | 24.3 | 13.6 | 11 | 13.3 | 11 | 10 | 10.9 | 6.1 | 4.4 | 2 |
| Δ2=(Die-Sink) | 8.5 | 8.4 | 9.5 | 10.2 | 10.7 | 11.3 | 10.2 | 9.2 | 8.6 | 7.3 |
| CPU Frenquency (GHz) | 2.79 | 2.79 | 2.79 | 2.79 | 2.79 | 2.60 | 2.59 | 2.00 | 1.6 | 1.1 |
SR100-X3 MB HeatSink - IO Performance
| Point | -40°C | -20°C | 25°C | 40°C | 50°C | 55°C | 60°C | 65°C | 70°C | 75°C |
| Innodisk 3ME3 mSATA 64GB ( Read ) MB/s | 187.16 | 190.43 | 187.34 | 186.99 | 187.29 | 185.91 | 187.43 | 187.42 | 187.43 | 187.39 |
| Innodisk 3ME3 mSATA 64GB ( Write ) MB/s | 121.43 | 119.42 | 118.15 | 118.09 | 118.49 | 118.02 | 117.94 | 117.84 | 118.32 | 118.71 |
| Apacer OnBoard SSD 64GB (Read) MB/s | 132.17 | 127.4 | 136.16 | 132.66 | 127.37 | 130.6 | 132.98 | 126.62 | 130.63 | 124.89 |
| Apacer OnBoard SSD 64GB (Write) MB/s | 256.41 | 255.21 | 257.25 | 255.82 | 256.26 | 255.39 | 257.25 | 256.04 | 253.55 | 255.99 |
Effective cooling solution for maximum heat dissipation
7starlake implements unique cooling solution with copper heat spreader, pure copper heat pipe and aluminum heat sink for maximum heat dissipation. With the aluminum heat sink enclosure allows dual-sided heat dissipation. We especially adopt the physical property of copper and aluminum, the copper heat spreader touches the heat source - processor and chipset and absorbs the heat rapidly, the heat then transfer to heat pipe; heat pipe is two-phase heat transfer involves the liquid-vapor phase change of a working fluid, the aluminum heat sink dissipates the heat into surrounding air promptly. With the benefits of fanless design, SR100-X3 can ensure high reliability and stability while working under wide range temperature from -40°C to 70°C
Patent Designed Aluminum Heat Sink
The heat sink is made by heat radiating material, which is aim to lowering the temperature by dissipating heat into the surrounding air. 96 % of aluminum, 21 mm height and weighs 1039 g
Pure Copper Heat Pipe
The heat pipes are embedded in the heat sink to ensure 100% tight integration for superior heat dissipation. Especially adopts U shape copper heat pipe to fulfill utmost thermal conductivity, copper heat pipe transfers heat from the heat sources (e.g. CPU, chipset) to the heat sink over relatively long distance. Two-phase heat transfer involves the liquid-vapor phase change of a working fluid.
• 8.0 mm diameter heat pipe, 225 mm length of each heat pipe, 99.9% purity of copper
• High heat conductivity coefficient up to 5000
Copper Heat spreader
Copper heat spreader directly touches the power source area, which can absorb heat rapidly and transfer to heat pipe and allow the high efficiency heat pipe further bring out heat to upper heat sink enclosure
• 99.9% purity of copper, weigh 470 g
OXY5740
EBX SBC is installed in the middle of the system, dividing segmentation type thermal design into upper and lower module. Lower thermal module decomposition is the same as upper module, which is explained above.
Copper Heat spreader
Copper heat spreader directly touches the heat source- processor and chipset, which absorb heat rapidly and transfer to heat pipe.
• 99.9% purity of copper, weigh 80g and consume 80x45x3 mm
• 3mm height to fulfill the gap between mainboard and heatsink enclosure