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Thank you for purchasing a Christmann t.RECS®.
- 3x COM-HPC: Server Size D, Client Size A/B/C, Client Size A/B
- Chassis: 2 RU, 740 Watt redundant power supply, 8x 3.5“ HDD slots (3 connected)
- Mainboard: E-ATX form factor
- Switched 10 Gb Ethernet
- Integrated PCIe Gen3 Switch for Host-2-Host communication
- PCIe x16 Slot for Mod 1 (COM-HPC Size D)
- I/O Shield: 4x 10G RJ45, 6x USB-C, 2x DisplayPort, 2x USB 2.0 (KVM), Management Ethernet RJ45
- Integrated Management with WebGUI, IPMI, Redfish, iKVM
As chassis, we offer a 2 RU standard chassis with a 740 Watt redundand power supply unit. The chassis includes 8x 3.5” HDD/SSD slots, from which three are connected to the t.RECS mainboard. It also has a frontpanel with Keyboard/Video/Mouse (KVM) support to directly work the COM-HPC microservers. A small LCD display is available for managing the power state (on/off/reset) of the COM-HPC microservers. Also, some basic sensors like FAN RPM and actual power draw can be read out from the LCD.
As microservers, up to three COM-HPC modules are supported:
- Mod 1: Server Size D
- Mod 2: Client Size A/B/C
- Mod 3: Client Size A/B
Tested microservers can be found product page.
CAUTION: For your safety
Please carefully read through the safety notes in the section below before commissioning your server!
- The power supplies in your server system may produce high voltages and energy hazards, which can cause bodily harm. Please do not open the server covers and access the inside of the server unless you have been told to do so. Do not open the cover of the power supplies at any time!
- Place the device on a hard, level surface or mount it within a server rack.
- You cannot place the server in an area with a weak floor. Under the weight of the server, the floor might give way.
- The device is designed to operate indoor only.
- A temperature difference of 15 degrees between the room temperature and server is enough for moisture to form. Please acclimatize the unit to avoid a short-circuit at least two hours.
- Protect the device of moisture, dust, oily or any other kind of liquids and steam.
- Keep the device away from radiators and other heat sources like direct sun ray.
- Keep the device away from devices that may cause electromagnetic interferences. Doing so may damage the server as well as cause fire or an electric shock.
- Leave at least 10 cm of clearance on all vented sides of the case to permit proper ventilation.
- Control it the placement of each component in the rack, before you start to install the rails.
- First you should to install the heaviest server components on the bottom of the rack, then you can work up.
- It is recommended to use a regulating uninterruptible power supply (UPS), this way you will protect the server from voltage spikes, power surges and to keep your system operating in case of a power failure.
- Position any cables carefully, route cables so that they cannot be stepped on or tripped over. Be sure that nothing rests on any cables.
- Never operate the device in a wet environment, keep the device and any cables dry.
- Do not immerse the device or any cable into water or other liquids.
- Do not cover any vent holes, do not stick anything into the vent holes.
- To help prevent electric shock, plug the equipment and peripheral power cables into properly grounded electrical outlets.
- Do not touch any hot power supply modules or other hot components of the server.
- Always keep all panels, components of the servers and the rack's front door closed when not ensuring proper cooling.
- Deploy the anti-tilt bar or legs on the equipment rack before beginning an installation.
- Ensure that the leveling jacks on the bottom of the rack are fully extended to the floor with the full weight of the rack resting on them.
- The stabilizers should be attached to the rack before you start with the installation. If you install multiple racks, first of all you should couple together the racks.
- Before you work on any components of a rack, always make sure that the rack is stable.
- You should not extend more then one components at the same time, because the rack may become unstable.
- Mechanical loading: Mounting of the equipment in the rack should be such that a hazardous condition is not created due to uneven mechanical loading.
- Reduced airflow: Installation of the equipment in a rack should be such that the amount of airflow required for safe operation of the equipment is not compromised.