Power Light Does Not Light

Check the following:

1.Did you press the power-on button?

2.Is the system operating normally? If so, the power LED might be defective or the cable from the front panel to the server board might be loose.

3.Have you securely plugged the server AC power cord into the power supply?

4.Is the power supply correctly set to 110 V or 235 V, depending on your power output?

5.Will other items plugged into the same power outlet function correctly?

6.Some ATX power supplies have a power switch on the back of the power supply, next to the fan. If your system as one, is it turned on?

7.Remove all add-in cares and see if the system boots. If successful, add the cards back in one at a time with a reboot between each addition.

8.Make sure the memory DIMMs comply with the system requirements.

9.Make sure the memory DIMMs have been populated according to the system requirements.

10.Remove the memory DIMMs and re-seat them.

11.Make sure the processor(s) comply with the system requirements.

12.Make sure the processor(s) have been populated according to the system requirements.

13.Remove the processor(s) and re-seat them.

14.Make sure the chassis standoffs are installed only below mounting holes. Misplaced standoffs can contact the pins on the bottom of the server board and cause a short.

No Characters Appear on Screen

1.Check the following:

2.Is the keyboard functioning? Test it by turning the “Num Lock” function on and off to make sure the Num Lock light is functioning.

3.Is the video monitor plugged in and turned on? If you are using a switch box, is it switched to the correct system?

4.Are the brightness and contrast controls on the video monitor properly adjusted?

5.Is the video monitor signal cable properly installed?

6.Does this video monitor work correctly if plugged into a different system?

7.Is the onboard video controller enabled in the BIOS?

8.Remove all add-in cares and see if the video returns. If successful, add the cards back in one at a time with a reboot between each addition.

9.Make sure the memory DIMMs comply with the system requirements.

26

Intel® Server Board SE7230NH1-E and Intel® Server Platform SR1475NH1-E User’s Guide

Page 42
Image 42
Intel SR1475NH1-E, SE7230NH1-E manual Power Light Does Not Light, No Characters Appear on Screen

SR1475NH1-E, SE7230NH1-E specifications

The Intel SE7230NH1-E and SR1475NH1-E motherboards are pivotal components designed specifically for server and workstation environments, delivering exceptional performance, reliability, and scalability. These motherboards cater to the demands of enterprise-level applications, making them ideal for various computing needs, from database management to virtualization.

The Intel SE7230NH1-E is built on the Intel 5000P chipset, optimized to support dual Intel Xeon processors. This motherboard is engineered for businesses requiring substantial computational power, featuring up to 64GB of DDR2 memory support across eight DIMM slots. The integration of ECC (Error-Correcting Code) memory ensures enhanced data integrity and reliability, crucial for mission-critical applications.

On the other hand, the SR1475NH1-E motherboard offers a slightly different configuration while maintaining high performance. It supports the Intel Xeon 5100 and 5300 series processors, also featuring dual-socket capabilities for extensive workload management. With its advanced memory architecture, it provides support for DDR2 memory, boosting performance while ensuring fault tolerance through ECC support.

Both motherboards exhibit robust I/O capabilities, with multiple PCI Express slots and standard PCI slots, allowing extensive expansion options for network cards, RAID controllers, and other critical peripherals. Integrated SATA interfaces enable efficient storage solutions, facilitating hot-swappable drive capability, essential for maintaining uptime in server environments.

In terms of connectivity, the Intel SE7230NH1-E and SR1475NH1-E motherboards come equipped with Dual Gigabit Ethernet ports, providing seamless network connectivity and redundancy. This feature is vital for organizations that require constant network access and reliable data transfer rates.

The thermal management solutions embedded within these motherboards are also noteworthy, featuring active and passive cooling designs that ensure stable operation under high workloads. This is particularly crucial in server environments where prolonged performance can lead to overheating, potentially affecting hardware longevity.

Moreover, these motherboards support technologies such as Intel Virtualization Technology, enhancing the ability to run multiple operating systems on a single platform, thus optimizing resource usage.

In summary, the Intel SE7230NH1-E and SR1475NH1-E motherboards stand out due to their combination of compatibility, expandability, and resilience. They are engineered to meet the extensive requirements of modern enterprise computing, making them valuable assets for businesses seeking reliable server solutions.