Space Optimization
Space savings is achieved by using servers with BBP®
•
modules installed instead of connecting the servers to
bulky external UPS systems.
Additional savings can be realized by utilizing the space
•
savings from eliminated or downsized UPS system to
accommodate more rack-mounted servers.
✕
Eliminates UPS
while maintaining system power redundancy
Runtime
Under typical conditions, below is the Estimated Runtime
of the current BBP® modules. Runtime can be extended
by adding additional BBP® modules to a system.
Estimated Runtime
Power
Loading
PWS-206B-1R
100W
15 min.
200W
5 min.
250W
2 min.
350W
--
400W
--
500W
--
1000W
--
Power Efficiency
Supermicro server solutions that incorporate
BBP® modules offer greater power efficiency
by replacing external 92% - 96% efficient UPS
systems with an inline solution that offers
99% efficiency. In addition, BBPs maintain
system availability, reduce installation space,
facility costs and administrative burden.
Supermicro BBP® can allow systems to shut
down gracefully or provide necessary power
until AC power is resumed by the electric
generator during the event of a power failure,
without installing extra UPS systems.
BBP® (Battery Backup Power) Server Solutions
PWS-206B-1R
PWS-1K03B-1R
x2
20 min.
45 min.
10 min.
27 min.
7 min.
18 min.
6 min.
15 min.
5 min.
13 min.
1.5 min.
10 min.
--
2.5 min.
Using Traditional UPS
AC
Using BBP Module
AC
Management
Advanced System Management
IPMI Command line interface and web GUI are both
•
available for remote monitoring and control of the BBP.
Flexible system control is initiated in the event of a
•
power failure.
Manual or Auto Discharge maintenance options are
•
available.
Flexible System Control and Power Down Options
Performs graceful shutdown during a power failure
•
Allows a specific power on time to facilitate data backup
•
or to allow the power generator to resume power.
Online UPS
AC
E ciency 92%~96%
y
Industry Power Supply
E ciency 80%~95%
Supermicro Power
Supply E ciency 95%+
4~8%
E ciency
Increase
BBP (12Vdc)
E ciency 99%+
System Load
System Load
System Load
System Load
y