Circl Building – ABN AMRO Amsterdam
DC Systems as the inventor of the Current OS Protocol is actively supporting design offices and system integrators to make their DC projects possible
The ABN AMRO Pavilion at the Zuidas in Amsterdam aims to be the most sustainable circular building and DC takes this one step further. With 3000m² of meeting venues with LED and PV panels connected to a complete DC grid on 350V DC developed by Direct Current B.V.
The next step for DC is to create cases in utility buildings. It is not just about avoiding conversion losses, though an important advantage, it is really about the bigger picture. Through this technique we can add more functionality in buildings and lay the foundation to be connected to a smart DC network where congestion management is embedded in the internal and external network. In this way we build an organic smart grid that allows optimum use of renewable energy and put it in use at the lowest cost. This applies to users but also for the operators. which directly leads to the lowest social cost in order to allow a sustainable society.
Needless to mention that balancing the energy bill is further reduced here, especially in combination with storage, which in DC nets can be much smaller than is the case with AC grids.
In the recent years, DC Sysytems has developed the technology to make DC energy distribution as safe and efficient as possible. This includes the following Innovations:
- Current/OS on 350V (i.e. the software layer used within this network where privacy violation is impossible; therefore it does not need to be protected) containing the Operating System of the currents and the Priority System.
- Current Router (i.e. security system and power management modules; electronic breakers "short circuit and overload," leakage current and ARC detection).
- LED drivers 350VDC.
- USB-C 100W Wall Socket outlet including data (still in development).
- AC/DC converter station.
- Corrosion protection.
The Circl is the first building worldwide with a DC infrastructure. This innovative DC installation opens the way to a new market with sustainable DC offices.
The DC grid works with a 350V DC distribution system and DC components developed by Direct Current BV. More than 500 solar panels on the Circl building are connected directly to the DC grid by DC micro converters. In the standard AC grid, all energy must first be converted to AC which gives energy conversion losses. The ventilation unit is also connected to the DC grid. Compared to the usual AC installations, DC yields a significant saving of raw materials and energy. The DC installation is furnished to implement batteries and to optimize the energy balance in a later stadium, innovations Direct Current BV is working hard on. Energy storage in batteries in combination with solar panels allows for a smaller grid connection in this building. Therefore, the costs for a DC grid in an office building are considerably lower than a conventional AC grid.
Another major innovation in the Circl are the 100W USB-C socket outlets, powered directly from the DC grid. USB-C plays a very important role in the buildings of the future. As USB-C enables both energy and data communication through the same cable, it is to be expected that the USB-C plug becomes the standard connection for laptops, desktop computers, monitors, phones, tablets, LED lights and media devices. Devices that do not support USB-C can make use of locally generated 230V AC power. The USB-C socket has been developed by Direct Current BV and ABB developed the enclosure.
Direct Current BV is currently in the interest of the world. Regularly, delegates from the big multinationals visit the company to take a look. Since 2009, Direct Current BV has been developing DC components to enable a sustainable DC network. From network codes (Current/OS), electronics, and firmware, to system integration, the company realized a major breakthrough in DC by the invention of the Current Router that protects the DC system in combination with their own developed operating system Current/OS. As of 2011 to date, many pilot projects throughout the Netherlands have demonstrated the workings of the DC system and the savings on resources and energy.