Cincoze's rugged embedded computers assist in the energy Internet of Things

Cincoze's rugged embedded computers assist in the energy Internet of Things

Facing the increasingly serious energy shortage problem, in addition to actively utilizing renewable energy, countries are also pressing for the layout of the energy Internet of Things.

The Energy Internet of Things uses sensors, controllers and software to connect equipment, machines and systems on the energy production side, energy transmission side, energy consumption side, etc., and realizes intelligent power storage and distribution through big data analysis and machine learning. functions such as electricity and even predictions. The efficient and streamlined embedded computer DV-1000 series of Cincoze Rugged Computing – DIAMOND product line features high-performance computing, compact body, flexible expansion, and strong wide-temperature characteristics, making it the preferred model for the field side of the energy IoT.

Compact size yet powerful

In order to collect and use renewable energy efficiently, it is necessary to establish a network to collect, store and use energy locally. The DV-1000 is small in size, only A5 size (224 x 162 x 64 mm), and is easy to install in Any small cabinet outdoors. Equipped with the 9th/8th generation Intel® Core™ i7/i5/i3 (Coffee Lake-R S series) processor, supporting DDR4 2666 MHz, with memory up to 32 GB and efficient computing power, it can quickly process large amounts of data in real time and conduct data analysis. , to meet the high computing requirements required by the energy Internet of Things on the field side.

Rich I/O and flexible expansion 

The foundation of the Energy Internet of Things lies in distributed energy management. Many sensors need to be installed at the renewable energy collection site to collect on-site information such as power switches, smart meters, and thermometers through sensors. In addition, a network connection will be required to transmit the collected and analyzed data to the control center to facilitate subsequent power distribution. DV-1000 has I/O interfaces commonly used in energy IoT fields, including 2x GbE LAN, 2x COM, and 6x USB, and can be connected in series with various types of sensors or other devices. Through Cincoze's exclusive CMI modular technology, COM or DIO can also be flexibly expanded; MEC modules can also be installed to add USB 3.0 and GbE LAN. DV-1000 can fully meet the various sensor interfaces and networking needs of the energy IoT field side. need.

Rugged and wide temperature suitable for outdoor use

Energy collection areas are usually outdoors, and the harshness of the installation environment and possible drastic temperature changes must be considered. The DV-1000 has its own advantages in addition to providing wide temperature (-40°C-70°C), wide voltage (9 -48VDC), and has passed the military standard MIL-STD-810G anti-collision and shock resistance test . It can withstand shock and vibration in harsh environments. If a high-wattage processor is used to operate at high speed, it can also be equipped with an exclusive external fan. In addition, to avoid electromagnetic interference in the chassis, DV-1000 has passed EMC certifications such as CE, UKCA, FCC, ICES-003 Class A and other multinational electromagnetic compatibility standards. With its trustworthy quality, DV-1000 has become a high-performance edge computing computer necessary for energy interconnection.