Hp Power Supply 3Rd Edition Users Manual Common Slot Technology

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Technology brief

HP Common Slot power supply technology
3rd edition

Table of contents
Abstract

2

Introduction

2

HP Common Slot power supplies

2

Load Balanced and High Efficiency
Modes

7

Right-sizing the power supply
Reducing hardware cost
Avoiding trapped power capacity
HP Power Advisor

8
8
8
8

HP Power Discovery Services

10

Installation considerations with HP
Common Slot power supplies

10

Conclusion

11

For more information

11

Click here to verify the latest version of this document.
Created September 2012.

Abstract
Energy directly consumed by data center equipment, the resulting heat produced and the energy that it takes to provide
cooling can account for a majority of overall operating costs in today’s data centers, making it a top concern for IT and
facilities managers worldwide. Energy efficiency is also a driver of overall data center utilization as inefficient systems
cannot be deployed as densely due to available power per rack and requisite airflow, reducing the expectations of
longevity for the facility. Utilized across ProLiant, Integrity, BladeSystem and even certain HP Storage platforms, HP
Common Slot power supplies help IT data centers to achieve optimum power efficiencies by right-sizing the power
output for each system. Additionally, HP Common Slot power supplies reduce administrative costs by improving power
management and providing a common form factor that reduces operational costs for spares when deploying a mix of HP
Server and Storage solutions. This technology brief describes how HP Common Slot power supplies help to increase
compute capacity and reduce operating costs by improving power efficiency in the data center.

Introduction
The demand for computing, storage, and networking capacity has been continuously increasing. For many
organizations, this has created an IT resource sprawl that can be costly in terms of energy consumption and
management. With Converged Infrastructure, HP is transforming IT technology silos into interoperable, shared pools of
resources. A key component of this is the next-generation HP ProLiant servers with the ProActive Insight architecture
and its technologies for automated energy optimization.
These technologies reduce the power and airflow needed to operate ProLiant Gen8 servers, enabling you to reclaim
limited space, power, and cooling resources for needed workloads. Additionally, they reduce the need for error-prone
manual processes associated with asset tracking, checking, and documenting with regards to power and rack
configurations. The automated energy optimization capabilities in the new ProLiant family are enabled by HP 3D Sea of
Sensor technologies. With embedded intelligence across three dimensions—sense of location, power utilization, and
thermal demand—you gain a unique level of visibility and control over the energy efficiency of your data center. With
the addition of HP’s new high-efficiency Platinum Plus Common Slot power supplies, energy savings at the processing
level (server, storage and networking equipment) can result in the greatest reduction in power requirements making the
power supply a key element in achieving energy-efficient IT operations.

HP Common Slot power supplies
HP Common Slot (CS) power supplies are designed to allow IT administrators to implement a Converged Infrastructure
using energy-efficient, inter-changeable, and manageable components. HP CS power supplies are available in three
power ratings; 460 watts, 750 watts, and 1200 watts (Table 1), allowing you to “right-size” a power supply to a specific
server or storage configuration. HP's latest set of CS power options, Platinum Plus, meet 80 PLUS requirements for
Platinum certification.

2

Table 1: HP CS power supplies

Name

Input

80 PLUS Certification

HP 460W CS Gold Power Supply

100-240 VAC

Gold

HP 460W CS Platinum Power Supply

100-240 VAC

Platinum

HP 460W CS Platinum Plus Power Supply

100-240 VAC

Platinum

HP 750W CS Gold Power Supply

100-240 VAC

Gold

HP 750W CS Platinum Power Supply

100-240 VAC

Platinum

HP 750W CS Platinum Plus Power Supply

100-240 VAC

Platinum

HP 750W CS -48VDC Power Supply

-48VDC

n/a 1

HP 1200W CS Silver Power Supply

100-240 VAC

Silver

HP 1200W CS Platinum Power Supply

100-240 VAC

Platinum

HP 1200W CS Platinum Plus Power Supply

100-240 VAC

Platinum

HP 1200W CS -48-VDC Power Supply

-48 VDC

n/a1

Note
All HP CS power supplies designed for AC input are 80 PLUS certified. To earn 80
PLUS certification, a power supply must be proven through independent testing
to be 80% (or greater) energy efficient when delivering 20, 50, and 100% of the
rated load capacity with a true power factor of 0.9 or greater. Power supply
ratings include 80 PLUS Bronze, 80 PLUS Silver, 80 PLUS Gold, and 80 PLUS
Platinum certification.

HP Common Slot power supplies share a common electrical and physical design that allows for installation into server
and storage platforms with a Common Slot power supply bay (Figure 1). HP Common Slot power supplies are compatible
with over 90% of HP ProLiant G6 and G7/Gen 8 servers, as well as with select HP Integrity and HP storage systems.

1

DC-DC power supplies such as the HP 1200-W CS 48-VDC power supply do not receive 80 PLUS certification.

3

Figure 1: HP platforms that support HP Common Slot power supplies over several generations of products

ProLiant DL300 G6/G7/Gen8 series &
HP x3800 Network Storage

ProLiant DL580 and DL585 G7 servers

ProLiant DL100 G6 series &
HP P4000 G2 SAN
ProLiant DL785 and DL980 servers

ProLiant ML300/100 G6 series
(ML370, ML350, ML330, ML150)

HP Common Slot
power supply

ProLiant DL1000 and DL2000 series

ProLiant SL6000 and S6500 series
ProLiant c3000 enclosure
Integrity rx2800 i2 series

The ability to use HP CS power supplies across multiple platforms simplifies maintenance for an IT department. Using a
common power supply form factor requires fewer maintenance spares and decreases inventory costs and facility space
requirements. Common Slot power supplies are qualified with specific HP products based on actual power output
requirements. These qualifications are defined in the section “Installation consideration with Common Slot power
supplies.”
Table 2 and Figures 2A, 2B, and 2C compares and illustrates the efficiency of HP Platinum Plus, HP Platinum, and HP
Gold CS power supplies as tested internally with the internal fans as part of the efficiency calculation. The 80 Plus
certification agency data reflected in Table 2 does not include power consumed by the fans as part of the efficiency
calculation.

4

Table 2: Operating efficiencies of 80 PLUS certified HP CS power supplies

Percent of efficiency
Power supply type

@ 10% load

@ 20% load

@ 50% load

@ 100% load

HP 460W CS Gold

85.02%

90.39%

92.43%

91.57%

HP 460W CS Platinum

86.50%

91.20%

94.37%

93.91%

HP 460W CS Platinum Plus

88.58%

92.05%

94.42%

93.07%

HP 750W CS Gold

87.58%

90.58%

92.90%

91.54%

HP 750W CS Platinum

88.85%

92.04%

94.55%

93.67%

HP 750W CS Platinum Plus

89.37%

92.47%

94.69%

93.41%

HP 1200W CS Silver

78.43%

86.84%

91.75%

91.19%

HP 1200W CS Platinum

88.74%

92.53%

94.34%

93.21%

HP 1200W CS Platinum Plus

90.37%

93.24%

94.44%

91.92%

Note
Most common load point

Figure 2A: Efficiency curves for HP CS Platinum Plus power supplies
98.0%

Peak efficiency range
for 460W supply

96.0%

Peak efficiency range
for 1200W supply

Peak efficiency range
for 750W supply

Efficiency

94.0%

92.0%

90.0%

88.0%

86.0%
0

200

400
460W Platinum Plus

600
Power
750W Platinum Plus

800

1000

1200

1200W Platinum Plus

5

Figure 2B: Efficiency curves for HP CS Platinum power supplies
98.0%

Peak efficiency range
for 460W supply

96.0%

Peak efficiency range
for 750W supply

Peak efficiency range
for 1200W supply

Efficiency

94.0%

92.0%

90.0%

88.0%

86.0%
0

400

200

460W Platinum

600
Power
750W Platinum

800

1000

1200

1200W Platinum

Figure 2C: Efficiency curves for HP CS 460W Gold, 750W Gold and 1200W Silver power supplies
98.0%

Peak efficiency range
for 460W supply

96.0%

Peak efficiency range
for 750W supply

Peak efficiency range
for 1200W supply

Efficiency

94.0%

92.0%

90.0%

88.0%

86.0%
0

200

400

460W Gold

6

600
Power
750W Gold

800

1200W Silver

1000

1200

Load Balanced and High Efficiency Modes
An HP ProLiant server configured with the HP 460-watt, 750-watt, or 1200-watt CS power supply supports the following
three scenarios:
A: Operating with a single supply
B: Operating with redundant supplies in Load Balanced Mode
C: Operating with redundant supplies in High Efficiency Mode
Figure 3 compares the efficiency of the HP 750-W CS Platinum Plus power supply under these three scenarios. As
indicated by Curve A, a single 750-watt power supply supporting the entire load of the server can achieve the highest
efficiency when operating in the middle range of its capacity, although redundancy is not provided.
For redundant 750-watt supplies operating in Load-Balanced Mode (the default mode), the load is shared equally
between the two supplies. As shown by Curve B, Load-Balanced Mode results in a significant efficiency penalty over
much of the server’s operating range compared to a single power supply supporting the entire load.
When High Efficiency Mode is enabled for redundant supplies, each power supply in the server is designated as either a
primary or secondary supply and the entire server load is shifted to the primary power supply. This allows the primary
power supply to operate at higher efficiency points on the load curve while the secondary power supply operates in idle
mode, providing no output power and consuming very little energy (typically two to four watts per supply). The result,
as shown by Curve C, is that High Efficiency Mode achieves efficiency levels that come close to those of a single supply
system.
Figure 3: Efficiency comparison of single and redundant HP 750W CS Platinum Plus power supplies

As indicated in Figure 3, High Efficiency Mode with 750-watt supplies is beneficial for loads up to approximately 450
watts. In general, Load-Balanced Mode offers better efficiency for loads requiring more than 60% of the primary power
supply capacity.
High Efficiency Mode is enabled through the server’s ROM-Based Setup Utility (RBSU) under System options →
Redundancy options. When enabling High Efficiency Mode, the user can specify that the odd or even power supplies will
be designated manually or automatically as secondary supplies. This flexibility allows users to balance the load across a
rack manually or automatically.

7

Right-sizing the power supply
The availability of HP CS power supplies in multiple capacities allows IT technicians to match the power supply capacity
to the actual load of a server configuration; that is, to select the right-size power supply. In addition to increased
efficiency, right-sizing the power supply also offers two immediate benefits: reducing hardware cost and avoiding
trapped power capacity.

Reducing hardware cost
Smaller capacity supplies cost less to purchase than larger capacity supplies. Nevertheless, IT infrastructure designers
often configure servers with larger-than-necessary supplies to allow for future expansion or upgrades. When
purchasing a significant number of servers, the savings from ordering only the capacities actually required can be
significant

Avoiding trapped power capacity
The amount of equipment that can be deployed in a given location, such as a rack, is in direct relation to the size of the
circuit that is provisioned. Often, more equipment can be deployed than nominally available through the use of power
capping, but that can also result in performance capping when used aggressively. Additionally, depending on local
regulations, large data centers may be required by law to size their power circuit (that is, their availability of power to
the location) based on the servers’ maximum power supply output rating or regulatory-plate rating. This method of
provisioning can quickly use up the data center power budget. Most servers, even fully configured and operating at
100% utilization, will typically require only 70% of the power supply capacity. Even if only 70% of power (at the most)
will ever be used, the data center will not be able to expand because the power circuit is trapped based on the required
method of provisioning. When using power supplies that more closely match the required power, the trapped capacity
can be reclaimed to power more equipment while staying in the same power budget.

HP Power Advisor
The HP Power Advisor utility removes much of the guesswork from estimating the power requirements of a particular
HP server configuration. Developed from actual measurement data collected from HP servers running under heavy load,
the Power Advisor allows the IT/facilities technician to build a virtual server system and accurately pre-calculate the
power needs of the server configuration without having to assemble and run the hardware.
Figure 4 shows a typical screen from a Power Advisor calculation for a ProLiant DL380p Gen8 server. The Power Advisor
allows the user to select precise configuration parameters such as processor type, memory size, and drives. As the
configuration is being made, the Power Advisor continuously calculates the “Current Wattage” and “Circuit Sizing”
requirements for the configuration. A Utilization slider control allows the user to set the projected degree of server
utilization.

Note
The Power Advisor allows users to avoid initial configuration mistakes such as
using an under-rated power supply. The Power Advisor should also be consulted
before reconfiguring a server. The HP Power Advisor can be downloaded from
the following URL: http://www.hp.com/go/hppoweradvisor.

As shown in Figure 4A, if a redundant supply has not been added, the Power Advisor generates a message suggesting a
power supply addition. If the server configuration exceeds the capacity of the power supply, an error message is
displayed (Figure 4B).

8

Figure 4A: Configuration display with redundancy reminder message

Figure 4B: Configuration display showing message when power supply capacities have been exceeded

The HP Power Advisor allows IT architects to choose the right size power supply for a given server configuration. This
saves money in the initial acquisition by allowing the purchase of less expensive, smaller-capacity supplies. This
efficient operation results in additional energy savings.

9

HP Power Discovery Services
As a feature of Automated Energy Optimization, HP Power Discovery Services (PDS), formerly HP Intelligent Power
Discovery is the first technology to create an automated, energy-aware network between IT systems and facilities. HP
PDS allows users to reclaim millions of dollars in wasted power capacity and downtime across data centers. HP PDS
combines the HP Intelligent Power Distribution Unit (iPDU), HP CS Platinum or Platinum Plus power supplies and HP
Insight Control software to automatically track new server installations and provide higher precision, control, and
automation to power distribution. HP PDS automatically discovers newly deployed HP servers, maps them to the power
source, verifies power redundancy and ensures all power sources are connected correctly.
When configured with HP CS Platinum or Platinum Plus power supplies, which feature an embedded serial
communication technology, HP servers can automatically provide identification information such as server name, UUID
number, and IP address to the Intelligent PDU and to HP Insight Control power management software. This reduces the
amount of time needed to configure the power distribution software and hardware. Additionally, HP PDS intuitively
detects redundant power supplies to ensure they are running on different PDUs. This helps reduce unscheduled down
time and the possibility of human error, the biggest challenges of data center management. For more information on HP
PDS refer to the website referenced in the “For More Information” section of this document.

Installation considerations with HP Common Slot power
supplies
Although the common slot power supply design is shared by a number of platforms enabling cross-platform power
supply installation, HP has qualified select ProLiant, Integrity, and HP storage products to work with specific HP CS
power supplies. An interactive online compatibility guide for HP products is referenced in the “For More Information”
section of this document. Table 3 shows which HP CS power supplies support HP Power Discovery Services. All HP CS
Platinum and Platinum Plus power supplies support HP PDS functionality.
Table 3: HP CS Power supply supporting HP Power Discovery Services

Power supply type

HP ProLiant server

460W CS Platinum

ProLiant G6/G7: DL160 , DL180 , DL360 , DL380 , DL385

460W CS Platinum Plus

ProLiant Gen8: DL160, DL320e, DL360e/DL360p, DL380e/DL380p, DL385p,
ML350e/ML350p

750W CS Platinum

ProLiant G6/G7: DL180 , DL360 , DL380 , DL385

750W CS Platinum Plus

ProLiant Gen8: DL160, DL360e/DL360p, DL380e/DL380p, DL385p,
ML350e/ML350p

1200W CS Platinum

ProLiant G7: DL380 , DL385 , DL580 , DL585 , DL980

1200W CS Platinum Plus

ProLiant Gen8: DL360e/DL360p, DL380e/DL380p, DL385p, DL560p, ML350p

10

HP ProLiant servers that support redundant power supplies only allow installation of same-type supplies. A power
supply mismatch or an unsupported power supply will result in an error indication as described in Table 4.
Table 4: HP CS power supply compatibility with HP PDS

Condition

System insight
display indication

Description

Power supply
mismatch detected
during boot

Power supply LED (all
supplies) blinking
amber

BIOS ROM will power up power supply #1 and then halt.

Power supply
mismatch detected
during runtime

Power supply LED
(added supply only)
blinking amber

iLO will detect the mismatch and not allow the added power supply to turn
on.

Unsupported power
supply detected
during boot

Power supply LED
(added supply only)
blinking amber

BIOS ROM will detect an unsupported power supply installation. BIOS ROM
will halt at POST with a failure message and will light the appropriate LED.
The LED will reset when the unsupported supply has been removed and
system is restarted.

HP CS power supplies are hot-pluggable/hot-swappable on ProLiant servers under the following conditions:

• The server must already be configured with redundant power supplies.
• The removed and replacement power supplies must be of the same type (same part number).
For all other situations, the ProLiant server should be powered down before a power supply is removed or installed.

Conclusion
The common slot power supply bay allows over 90% of the ProLiant server line to use 80 PLUS-certified power supplies.
By using IT equipment that supports common-slot power supplies, IT and facilities administrators can reduce spares
inventory costs and space requirements while reducing energy consumption costs and reclaiming data center power
capacity.

For more information
Visit the URLs listed below if you need additional information.
Resource description
HP Power Supplies
HP ProLiant servers

Web address

http://h18004.www1.hp.com/products/servers/rackandpower/pow
ersupplies/index.html
www.hp.com/go/proliant

Automated Energy Optimization

http://h71028.www7.hp.com/enterprise/cache/600307-0-0-0121.html
http://h20195.www2.hp.com/V2/GetPDF.aspx/4AA3-9650ENW.pdf

HP Power Advisor utility

www.hp.com/go/hppoweradvisor

80 PLUS program

www.80plus.org

HP interactive online compatibility guide

www.hpproliantoptions.com/index.aspx

HP Intelligent Power Discovery (Power Discovery
Services)

www.hp.com/go/ipd

HP ProLiant Energy Efficient Solutions

11

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© Copyright 2012 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. The only
warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein
should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein.

12
TC1208930, Created in September 2012
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