Remote Power Switch (RPS) - usedcomp.de · switched with an RPS without safety boxes being...
Transcript of Remote Power Switch (RPS) - usedcomp.de · switched with an RPS without safety boxes being...
PRIMEPOWER
Remote Power Switch (RPS)
E. Hübner-HatzelFujitsu Siemens Computers GmbH UNIX 33094 Paderborne-mail: e-mail:[email protected].: (05251) 814-895Fax: 0 700 / 372 00001U41285-J-Z816-2-76Sprachen: EnEdition January 2003
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Certified documentation according DIN EN ISO 9001:2000To ensure a consistently high quality standard anduser-friendliness, this documentation was created tomeet the regulations of a quality management system which complies with the requirements of the standardDIN EN ISO 9001:2000.
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Copyright and TrademarksCopyright © 2003 Fujitsu Siemens Computers GmbH.
All rights reserved.Delivery subject to availability; right of technical modifications reserved.
All hardware and software names used are trademarks of their respective manufacturers.
This manual is printed on paper treated with chlorine-free bleach.
Contents1 Basic information . . . . . . . . . . . . . . . . . . . . . . . . 11.1 Implementation and system affiliation of the RPS . . . . . . . . . 11.1.1 Definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21.1.2 Dependencies and release restrictions . . . . . . . . . . . . . . 31.2 Additional information on RPS . . . . . . . . . . . . . . . . . . . 41.3 Notational conventions . . . . . . . . . . . . . . . . . . . . . . 4
2 Component overview . . . . . . . . . . . . . . . . . . . . . . 5
3 Rack installation . . . . . . . . . . . . . . . . . . . . . . . . . 93.1 Mounting the RPS on the carrier plate . . . . . . . . . . . . . . . 93.2 Installing the carrier plate and RPS in the rack . . . . . . . . . 11
4 Startup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 154.1 Setting the cabinet ID . . . . . . . . . . . . . . . . . . . . . . 15
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4.2 Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 154.3 RSB login . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164.3.1 Telnet login . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164.3.2 V.24 login . . . . . . . . . . . . . . . . . . . . . . . . . . . . 174.3.3 Initial LAN configuration of an RPS in a PRIMEPOWER system 184.3.4 Initial LAN configuration of a master RSB in a PRIMEPOWER
system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
5 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . 255.1 Manpages . . . . . . . . . . . . . . . . . . . . . . . . . . . . 255.2 Redundant configuration for max. 16A . . . . . . . . . . . . . 265.3 Redundant configuration > 16A . . . . . . . . . . . . . . . . . 275.4 Power Distribution Rack with RPS and Load Break Switches . . 275.5 Master RPS . . . . . . . . . . . . . . . . . . . . . . . . . . . 315.6 Multihost configuration with master and slave RPS . . . . . . . 325.7 Additional configuration diagrams . . . . . . . . . . . . . . . . 335.7.1 Multimaster peripherals with master RSB . . . . . . . . . . . . 345.7.2 Two PW servers with PCI master RPS on multimaster
peripherals . . . . . . . . . . . . . . . . . . . . . . . . . . . . 365.7.3 Multimaster peripherals and node elimination with master RSB
(Server without PCI) . . . . . . . . . . . . . . . . . . . . . . .385.7.4 Node elimination with slave RPS . . . . . . . . . . . . . . . . 405.7.5 Possible Network Cabling for RPS . . . . . . . . . . . . . . . 42
Contents
6 Contactor box . . . . . . . . . . . . . . . . . . . . . . . . . . 43
7 Technical data of the RPS . . . . . . . . . . . . . . . . . . . . 47
8 Product names/replacement parts . . . . . . . . . . . . . . . 498.1 Product structure . . . . . . . . . . . . . . . . . . . . . . . . . 498.2 Other cables . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
Abbreviations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
Figures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
U41285-J-Z816-2-76
1 Basic information● The Remote Power Switch (RPS) is used to power on and off the power sup-
ply on up to four systems or devices connected to it on paths via an Ethernet connection. Every system connected in the Ethernet LAN can be configured to trigger the relevant switching operations (multihost capability). Passwords are used to protect against inadvertent or unauthorized access.
● The RPS allows the switching status of the power supply to consumers con-nected via Ethernet to be queried.
● PRIMEPOWER systems with a power control adapter can be powered on remotely by means of a connected RPS.
● If consumers connected to an RPS require more power then the maximum output current permitted by the RPS, safety boxes offering a higher output current can be connected in the outgoing current.
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● The RPS is designed for installation in 19-inch racks and comes supplied with the necessary assembly material.
● Configuration, initiation of switching operations, status queries etc. are gen-erally performed on the basis of commands.
1.1 Implementation and system affiliation of the RPS
The RPS was developed primarily for powering on and off PRIMEPOWER serv-ers and FibreCAT peripherals in cluster configurations. The following applica-tion scenarios are envisaged, some of which can also be implemented in paral-lel using the same RPS hardware:
● Powering on/off peripheral cabinets (also those shared by a number of server systems)
– together with server systems
– online
● Powering off error-prone servers online (elimination of nodes in clusters) in order to prevent complete system faults
● Powering on PRIMEPOWER systems
Implementation and system affiliation of the RPS Basic information
● Remote powering on PRIMEPOWER systemsPRIMEPOWER systems provided with a Power Control (PC) Interface, can be powered on remotely by means of a connected RPS (port 5). To do this, the RPS has to be connected to the PRIMEPOWER server by a PC cable. Powering off the PRIMEPOWER server via port 5 is not possible.
● Delayed powering on/off (for example in order to initiate the backup of cache contents to hard disk on RAID systems by disabling a redundant power pack before the second power pack is switched off).
1.1.1 Definitions
Master A Master can be an RPS or a Remote Server (Management) Board
(RSB) in a PRIMEPOWER system. A Master RPS primarily has the task to send switch orders to Slave RPSs via Ethernet. The Master RPS of
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one system can be configured as Slave RPS in other systems and thus can also be used for node elimination. But it can not function as sub-enclosure at the same time. RPS and server are connected via a PC cable (cf. table “Product structure” on page 49). Via a Master RPS the connected PRIMEPOWER server can be powered on remotely.
Slave RPS A Slave RPS can receive switch orders from the Master RPS, but it can
also be switched to stand-alone operation. Slave RPSs are used for node elimination.
Sub-enclosure A sub-enclosure powers on the configurated ports as soon as the first
Master is powered on, and powers them off when the last Master is powered off. These ports are indicated during the configuration of the sub-enclosure.
Multimaster Peripheral cabinets that are shared by a number of server systems are
powered on when the first server is powered on, and powered off toge-ther with the last server.
Node elimination By means of node elimination single servers within a cluster are powered
off.
Basic information Implementation and system affiliation of the RPS
1.1.2 Dependencies and release restrictions
● Based on their power draw, the PRIMEPOWER100N through PRIMEPOWER650 systems from the PRIMEPOWER system family can be switched with an RPS without safety boxes being connected in the outgoing current.
● Server systems can only be powered on in an orderly way with the RPS using its power control adapter. The orderly powering down of the server system must be initiated on a different path.
● In order to power on a PRIMEPOWER server via an RPS, its control panel switch must be set to AUTO or LOCK depending on the system.
● If an RSB has to be used in the form of an internal PCI controller because there is no PC (power control) adapter available to which an external RPS can be connected, the remote power-on function of the server will not be
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available. The RSB always should be run with the provided standby power supply.
● The load output ports of an RPS that is used as a master (see example “Master RPS” on page 31) must not be used for powering on and off shared peripherals in multihost configurations.
Additional information on RPS Basic information
1.2 Additional information on RPS
You can use the search engine on the Extranet for partners of Fujitsu Siemens Computers (login needed) in order to get access to regularly updated informa-tion on the topic of RPS. The link to the search engine (SEARCH) can be found, for example, at:
http://extranet.fujitsu-siemens.com/service/primepower
1.3 Notational conventions
The following notational conventions are used in this manual:
type-written text describes system output, for example text on the screen and on an LCD
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bold type-written text
refers to user input in examples
Italics identifies commands, file names, menu names and input in the main body of text
Semi-bold indicates highlighting in the text
[Key] denotes keys or shortcut keys in the main body of text
I indicates additional information and tips
V indicates special information, which if not observed can endanger your life, destroy the functionality of your system or damage the security of your data
Ê describes activities that must be performed in the order shown
--> shows the last possible option for resolving an error or in a flowchart
● this character or a
– identifies an item in a list
2 Component overviewPlease note the table at the end of this section, which briefly explains how the indicated components operate.
I²C
Box-ID
I²C
Relais/I²C
Relais/I²C
2 x AC Power Out
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Figure 1: Components and external RSB connections (schematic)
Power Module
Ethernet
RSB
Power
St.by-NT
MID
PC V.24
Relais/I²C
Relais/I²C
2 x AC Power OutAC Power IN
Component overview
Power Module
RSB
CircuitBreaker
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Figure 2: Component overview from front left above, cover removed
Figure 3: Component overview from rear left below
Power Module
RSB
CircuitBreaker
Component overview
Figure 4: Components on the front side
Power 1 OUT Power 2 IN RS232 Console Circuit Breaker
LANRSBconfig.
Connector
RSBexternalPower
LEDRSB
LEDPW ONPW
ON/OFFBox IDOUT 1 OUT 2 3 4
(backside)Power ON LEDs
Power 4 OUT Power 3 OUT Power 2 OUT
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Figure 5: Components on the rear side
Component Function
Main components:
RSB “Remote Server (Management) Board” assembly
Power Mod-ule
Switch assembly in RPS
Circuit Breaker
20 A overload protector that can be reset manually by a key-stroke (thermal circuit breaker)
Switch assembly:
(AC)Power In
16 A mains insulated connector
(AC)Power Out
Switched load output ports for 4 x 10 A non-heating equipment connection sockets(total load for all four adapters together max. 16 A)
Table 1: Functions of RPS components
OUT 4 OUT 3 OUT 2Power ON LEDs
IIIIIIV
Component overview
LEDs 1, 2, 3, 4
Status LEDs for 4 load output ports (additional LEDs can be found below output ports 2 to 4 on the rear of the device); LED on = output port enabled
PC/PW ON/OFF
PRIMEPOWER-specific adapter (power control, 8-pin mini DIN) for checking that a connection exists to a host (even if the connection is without current), for querying its poweron status, if appropriate, or for powering on the host. The control panel switch on the PRIMEPOWER host must be set to AUTO (Taiho) or LOCK (PW650/850) for these functions.
PW ON LED Lights up for the duration of the signal sent by the RPS to the connected host indicating that the host should be powered on(approx. 5 s)
Component Function
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V.24/RS232 Console
Serial port for accessing the console on the connected host system
MID Module ID/Manufacturer ID (on EPROM)
St.by PP Standby power pack on switch assembly for supplying power to the RPS (including the RSB) via the mains connection
Box ID DIP switch for setting the unique system cabinet ID (0 - 63) for allowing identification of the RPS by the operating system
Relay/I2C Actors connected via the I2C bus (poweron/poweroff relays) and sensors (for querying the switch setting)
RSB:
Ethernet/LAN Ethernet port (signal port for switch operations and status queries)
I2C Power I2C bus (internal signal bus for communication between the RPS components) including power supply for I2C and power control adapter
RSB LED Lights green permanently if the RSB is ready (approx. 90 s after the power supply is connected)
RSB external Power
Not used in the RPS (connection on RSB assembly for power supply to the RPS via an external power pack)
RSB config Connector
Serial port on the RSB assembly for initial input of the IP address and for other configuration steps
Table 1: Functions of RPS components
3 Rack installationA carrier plate that can accommodate up to two RPSs (or RCA4 or one RPS and one RCA4) is used for installing the RPS in racks.
The carrier plate only can be installed in the rack from the rear:
● Horizontally in the PRIMECENTER(2) rack (PCR2) using one of the two retaining clips in the clip set 1U (GP70F-ZB211)
● Horizontally in the PRIMECENTER(1)/PRIMEOFFICE rack (PCR1) using the other of the two retaining clips in the clip set 1U (GP70F-ZB211)
● Horizontally in every 19-inch standard rack
V Vertical rack installation in the 5-inch area is not planned.
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3.1 Mounting the RPS on the carrier plate t
Figure 6: Carrier plate for two RPSs (or RCA4)
Mounting the RPS on the carrier plate Rack installation
Before the carrier plate can be installed in the rack, the RPSs (or the RCA4) must be secured on the plate.i
Left mounting
Right mounting
location
location
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Figure 7: Carrier plate for two RPSs (or RCA4)
The RPSs (or RCA4) are secured on the carrier plate using their side housing screws.
● On the common inner side of both devices, the heads of the two housing screws are secured in the horizontal slits in the support profile to the center of the carrier plate.
● On the outer parts of the two devices, the housing screws act as clamping screws in the vertical slits of the external support profile of the carrier plate.
Installing the device in the left assembly location
Ê Place the carrier plate horizontally on a working surface with its brackets for screwing it down in the rack in front. Set down one of the devices being installed with the front side (the side with the signal ports on the RPS) facing to the front.
Ê Loosen the left housing screw on one of the devices being installed in the left assembly location by approx. 2 mm.
Front of device(rear of rack)
Rack installation Installing the carrier plate and RPS in the rack
Ê Diagonally lower the device being installed on the left side from above onto the left assembly location of the carrier plate, so that the screw heads insert from the left into the horizontal slits in the support profile to the center of the carrier plate.
Ê Press down the device on the left onto the carrier plate so that the loosened housing screws to the front and rear fit respectively into the rear one of the two vertical slits on the left support profile.
Ê Secure the two screws.
Installing the device in the right assembly location
Ê Proceed as for the left mounting location but place the carrier plate and device being installed horizontally at a 180 degree rotated angle on the working surface (carrier plate brackets for the rack assembly to the rear, front of the device to the rear).
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3.2 Installing the carrier plate and RPS in the rack
Ê First screw down the appropriate retaining clips from the clip set GP70F-ZB211 in the case of PRIMECENTER racks.
Installing the carrier plate and RPS in the rack Rack installation
– On the PRIMECENTER(2) rack (PCR2), this is the clip used in the rack both for the width alignment from 610 mm to 19 inches and the depth alignment. Two thread-rolling M5x10 screws with spring centering wash-ers are used to secure the clips.
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Figure 8: RPS/RCA4 carrier plate assembly (horizontal) in the PRIMECENTER(2) rack
Rear of rack
Rack installation Installing the carrier plate and RPS in the rack
– On the PRIMECENTER(1)/PRIMEOFFICE rack, this is the clip used in the rack simply for the width alignment from 610 mm to 19 inches. Two cage nuts and two M5x10 screws are used to secure the clips.
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Figure 9: RPS/RCA4 carrier plate assembly (horizontal) in the PRIMECENTER(1)/PRIMEOFFICE rack
Retaining clips need not be installed in the case of a 19” standard rack.
Ê Tightly screw down the carrier plate horizontally from the rear in the rack using four cage nuts, as shown in the two previous diagrams for the PRIME-CENTER(1)/PRIMEOFFICE racks.
Rear of rack
4 Startup
4.1 Setting the cabinet ID
Each RPS cabinet (cabinet, 19-inch rack, extension module, etc.) in the system must be assigned a unique cabinet ID so that it can be located and diagnosed by the operating system (SMAWrsb package). The value can lie between 0 and 63 and must be set with a DIP switch with eight switches, each of which repre-sents one digit of the selected binary number.
Upper switch setting corresponds to “1”.
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Figure 10: Cabinet ID switches
4.2 Cabling
Ê First connect the signal cable on the RPS.
Ê Connect the mains output ports on the RPS to the devices being switched. Power cables connected to the switched mains output ports on the rear of the RPS can be fed into the rack from the rear through the channel provided for such cables on the upper side of the RPS, so that they can be laid together with the other cables connected to the RPS in an orderly fashion.
Ê Connect up the power supply for the RPS. The RPS is supplied by default with a power cable with a 16A industrial plug (CEE/IEC309).
Assigned box ID: dec=22 hex=16
Lower switch setting corresponds to “0”.
Switches 7 and 8 must be set to “0” at present.
V Please note that devices that are connected to the RPS may conduct increased leakage current (>3,5mA). In this case the use of a power-in cable with IEC320 plug is not allowed.
1 2 3 4 5 6 7 8Bit 0 1 2 3 4 5 6 7
Bit=1
Bit=0
RSB login Startup
4.3 RSB login
The RSB in the RPS provides a menu system that has to be used for the initial configuration and can then be used again later for various configuration steps or for test purposes.
The SMAWrsb software package (available for SOLARIS and LINUX) must be installed for the following functions:
● To automatically switch individual channels (AC output ports and PC port) in high-availability configurations
● To configure master/slave configurations
● To configure poweron/poweroff delays
● To flash the RSB with new firmware
The RSB in the RPS can be accessed:
i
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● via the Ethernet port of the RSB via telnet; the following default settings apply here for recently shipped RSBs:
IP 192.168.0.10 Port 3172 10/100 Mbit/s(former RSBs use port 2307)
● or via the serial port (V.24) of the RSB via a hyper terminal
VT100 38400/8N1 null modem cable
Once the RPS has been connected to the power supply, it can take some 90 s until the RSB is ready - the green RSB LED then remains lighting permanently.
After operational readiness Ctrl-J must be entered.
4.3.1 Telnet login
Ê Input: telnet 192.168.0.10 2307 (old)or: telnet 192.168.0.10 3172– Default user name: root– Default password: fsc
Ê Then assign a new password or enter fsc twice.
i
Startup RSB login
4.3.2 V.24 login
Ê Start the hyper terminal emulation with the following settings for the COM port:
● COM port parameter:
– baud rate: 38400
– data: 8 bit
– parity: none
– stop at: 1
– protocol: hardware
● Terminal emulation: VT100
● ASCII configuration: transmitted lines end with line feed
Ê Wait until the RSB responds (up to 10 s)
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Ê Then continue as for telnet login with user name
Ê Or as described below for an initial LAN configuration via V.24
RSB login Startup
4.3.3 Initial LAN configuration of an RPS in a PRIMEPOWER system
Prerequisite: The RSB must have the firmware version 1.0.3.105 or higher.
Ê Connect a PC to the V.24 port of the RSB (e. g. with a 7488.00 or 55766.0x.0.16 cable).
Ê Set up the connection, as already described in Section “V.24 login”.
***************************************** Welcome to PRIMERGY Remote Manager ** Firmware Revision 1.0.3.105 ** Firmware built Oct 23 2002 15:41:24 *****************************************
System Type : RP-SwitchSerial No : 6B02352579System ID : 0x8
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Power Status: On (Port1, ..., Port4) = (On, On, On, Off)
Please enter user name : rootPlease enter pass phrase : ***
User and pass phrase accepted
The default pass phrase has been detected; please change it!Enter new pass phrase : ***Repeat new pass phrase: ***
***************************************** Welcome to PRIMERGY Remote Manager ** Firmware Revision 1.0.3.105 ** Firmware built Oct 23 2002 15:41:24 *****************************************
System Type : RP-SwitchSerial No : 6B02352579System ID : 0x8Power Status: On (Port1, ..., Port4) = (On, On, On, Off)
(1) Console Redirection(2) Console History(3) Power Management...(4) Enclosure Information...(5) Service Processor...
(c) Change password
Enter selection or (0) to quit: 5
Startup RSB login
***************************************** Welcome to PRIMERGY Remote Manager ** Firmware Revision 1.0.3.105 ** Firmware built Oct 23 2002 15:41:24 *****************************************
System Type : RP-SwitchSerial No : 6B02352579System ID : 0x8Power Status: On (Port1, ..., Port4) = (On, On, On, Off)
(*) Firmware Update(2) Reset Service Processor
(3) Reset Configuration(4) Configure IP Parameters(5) Generate SSL Certificate(6) RPS Console Redirection Settings
Enter selection or (0) to quit: 4
U41285-J-Z816-2-76 19
***************************************** Welcome to PRIMERGY Remote Manager ** Firmware Revision 1.0.3.105 ** Firmware built Oct 23 2002 15:41:24 *****************************************
System Type : RP-SwitchSerial No : 6B02352579System ID : 0x8Power Status: On (Port1, ..., Port4) = (On, On, On, Off)
(*) Firmware Update(2) Reset Service Processor
(3) Reset Configuration(4) Configure IP Parameters(5) Generate SSL Certificate(6) RPS Console Redirection Settings
Enter selection or (0) to quit: 4
Should DHCP be enabled? [0] :Please enter IP address [220.220.110.191] :Please enter IP netmask [255.255.255.0] :Please enter IP gateway [0.0.0.0] :
Press any key to continue
RSB login Startup
***************************************** Welcome to PRIMERGY Remote Manager ** Firmware Revision 1.0.3.105 ** Firmware built Oct 23 2002 15:41:24 *****************************************
System Type : RP-SwitchSerial No : 6B02352579System ID : 0x8Power Status: On (Port1, ..., Port4) = (On, On, On, Off)
(1) Console Redirection(2) Console History(3) Power Management...(4) Enclosure Information...(5) Service Processor...
(c) Change password
Enter selection or (0) to quit: 0
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Startup RSB login
4.3.4 Initial LAN configuration of a master RSB in a PRIMEPOWER system
Prerequisite: The RSB must have the firmware version 0.2.2.104 or higher.
Ê Connect a PC to the V.24 port of the RSB (e. g. with a 7488.00 or 55766.0x.0.16 cable).
Ê Set up the connection as already described in Section “V.24 login”.
***************************************** Welcome to RSB Remote Manager ** Firmware Revision: 0.2.2.104 ** Built: Oct 23 2002 16:12:06 *****************************************
Power Status: On
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Please enter user name : rootPlease enter pass phrase : ***
User and pass phrase accepted
The default pass phrase has been detected; please change it!Enter new pass phrase : ***Repeat new pass phrase: ***
***************************************** Welcome to RSB Remote Manager ** Firmware Revision: 0.2.2.104 ** Built: Oct 23 2002 16:12:06 *****************************************
Power Status: On
(1) Service Processor...(3) Temperature
Enter selection or (0) to quit: 1
RSB login Startup
***************************************** Welcome to RSB Remote Manager ** Firmware Revision: 0.2.2.104 ** Built: Oct 23 2002 16:12:06 *****************************************
Power Status: On
(1) View Eventlog(2) View Errorlog(3) Clear Error/Eventlog
(4) Interface Configuration...(5) User Accounts...(6) Controller Time(7) Console Redirection(8) Reset Service Processor
Enter selection or (0) to quit: 4
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***************************************** Welcome to RSB Remote Manager ** Firmware Revision: 0.2.2.104 ** Built: Oct 23 2002 16:12:06 *****************************************
Power Status: On
(1) IP Parameters(2) Telnet(3) Serial connection
Enter selection or (0) to quit: 1Please enter IP address [220.220.110.187] :Please enter IP netmask [255.255.255.0] :Please enter IP gateway [220.220.110.230] :
Press any key to continue
Startup RSB login
***************************************** Welcome to RSB Remote Manager ** Firmware Revision: 0.2.2.104 ** Built: Oct 23 2002 16:12:06 *****************************************
Power Status: On
(1) IP Parameters(2) Telnet(3) Serial connection
Enter selection or (0) to quit: 0
***************************************** Welcome to RSB Remote Manager ** Firmware Revision: 0.2.2.104 ** Built: Oct 23 2002 16:12:06 *****************************************
U41285-J-Z816-2-76 23
Power Status: On
(1) View Eventlog(2) View Errorlog(3) Clear Error/Eventlog
(4) Interface Configuration...(5) User Accounts...(6) Controller Time(7) Console Redirection(8) Reset Service Processor
Enter selection or (0) to quit: 0
***************************************** Welcome to RSB Remote Manager ** Firmware Revision: 0.2.2.104 ** Built: Oct 23 2002 16:12:06 *****************************************
Power Status: On
(1) Service Processor...(3) Temperature
Enter selection or (0) to quit: 0
5 Configuration
5.1 Manpages
The SMAWrsb software package (available for SOLARIS and LINUX) must be installed in order to use the RPS. It provides the rsb and rsb_delay commands as well as the _rsbtab configuration file, the meaning and use of which are documented in the associated manpages rsb(1M), rps_delay(1M) and _rsbtab(4). You can show manpages on the screen by entering the following at shell level:
man rsbor
man rps_delayor
man _rsbtab
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I If the power supply within an RPS configuration fails, the switched mains output ports of this RPS are powered off. After a power fail restart, the RPS automatically reconstitutes the switch setting of the mains output ports that existed at the occurrence of the failure (status storage in a non-volatile memory).
This only applies for RPSs that have bee configurated by SMAWrsb com-mands.
Redundant configuration for max. 16A Configuration
5.2 Redundant configuration for max. 16A
1st RPSwidth: 221mm
2nd RPSwidth: 221mm
Server or Peripheralwith Dual Power Feed
max. 16A
Server or Peripheralwith Dual Power Feed
max. 16A
BoxID
I²C
Relay/I²C
Relay/I²C
BoxID
I²C
Relay/I²C
Relay/I²C
26 U41285-J-Z816-2-76
Figure 11: Configuration example with 2 x RPS, 2 x < 16A contact ratings and dual power feed
AC Power Inmax. 16A
AC Power Out2x 10A
AC Power Inmax. 16A
AC Power Out2x 10A
Ethernet Hub
Power Module
Ethernet
RSB
I²CPower
St.by PP
MID
PC V.24
Relay/I²C
Relay/I²C
Power Module
Ethernet
RSB
I²CPower
St.by PP
MID
PC V.24
Relay/I²C
Relay/I²C
Configuration Redundant configuration > 16A
5.3 Redundant configuration > 16A
PRIMEPOWER650, PRIMEPOWER850 and PRIMEPOWER900 systems with PCI boxes must always be started or stopped including the I/O extensions con-nected to them. Since power consumption is above 16A for these PRIME-POWER models, the RPS must have a downstream high-current contactor. As these models from Fujitsu Siemens Computers are delivered with Dual Power Feed (redundant power connection with independent power supplies) as a stan-dard, a separate high-current contactor must be used for each of the two con-nections. Chapter 6 depicts, how the two high-current contactors are colocated in a 19“ rack.
The PRIMEPOWER Enterprise systems are also supplied with power via several power lines. To start and stop each system, an RPS with a downstream high-current contactor and a subdistributor in a separate connection rack must be provided. For a system with Dual Power Feed two high-current contactors
U41285-J-Z816-2-76 27
must be used in the connector rack.
A second RPS is not required for systems with Dual Power Feed. It is, however, recommended for RPS-availability reasons.
5.4 Power Distribution Rack with RPS and Load Break Switches
Recommended power distribution racks are available in different versions on request. They are used exclusively for power distribution for mainframe computer systems. The different types match the computer types and their individual configurations.
These power distribution racks have two separate power supplies (dual power feed) for distributing power to the enterprise systems. Load break switches at the mains power feed are intended only for disconnecting the whole power distributor. The number and type of sockets depend on the requirements of the computer system. They are distributed symmetrically over the two mains power feeds. The sockets are protected by a circuit breaker.
Possible socket types (max. 16 per power feed):
● CEEform 16A (IEC309)
● CEEform 32A (IEC309)
● Safety socket 16A
Power Distribution Rack with RPS and Load Break SwitchesConfiguration
The power distribution racks also accommodate the load break switches and the RPS for their control. Depending on the RPS application it must be decided which of the sockets are to be connected via the load break switches and which are not. For the "node elimination" feature, for example, all power feeds for the computers, including the associated I/O components, must be connected via switches, but not the power feeds for multihosted mass storage systems such as RAID systems.
The power distribution racks have the same mechanical structure and ambient and space requirements as the mainframe computer systems. They are commercial 19" racks. The operating side has a see-through door, 180° hinges, 3mm tempered safety glass, bolt with handle and an easy-grip handle with safety interlock. The connection side has a sheet steel door with bolt with handle and safety interlock. As far as possible, halogen-free material is used. All screwed parts have automatic potential equalization.
The rack has a three-part bottom plate with entry glands for the power feeds and
28 U41285-J-Z816-2-76
a sliding cable access plate on the operating side. The power feed cables and the supply lines for the computer systems are routed in from below through the double bottom. Therefore the cabinet must always be fastened to the floor so that lines and cables cannot be damaged by moving it. The power lines of the computers are routed in on the operating side, plugged in and fastened with clips.
The power distribution racks must be located close to the mainframe systems. The computers' connection cables must be plugged into the CEEform sockets provided. The exact assignment of the connections should be marked on the sockets.
Configuration Power Distribution Rack with RPS and Load Break Switches
The power distribution racks must not be used for any purpose other than that described here, as other safety requirements (DIN VDE) apply here. Using spare sockets for other functions is not recommended.
Technical data power distribution rack
Dimensions W: 600mm H: 1,800mm D: 600mm
Weight 150 kg
Protection class 1 Type IP 23
Power system 3 AC 50Hz 230/400V
Rated insulation voltage AC 690V
Rated current feed 1 / 2 100A
Max. fuse 100A
U41285-J-Z816-2-76 29
Short-circuit rating 50KA
Table 2: Technical data power distribution rack
Power Distribution Rack with RPS and Load Break SwitchesConfiguration
1st RPSwidth: 221mm
2nd RPSwidth: 221mm
Serverwith Dual Power Feed
> 16A
Two High Current Contactors
In a 19“ contactor box or in a connected rack with sub-distribution
I²CPower
BoxID
MID
I²C
Relay/I²C
Relay/I²C
I²CPower
BoxID
MID
I²C
Relay/I²C
Relay/I²C
30 U41285-J-Z816-2-76
Figure 12: Configuration example with 2 x RPS, 1 contact rating > 16A with dual power feed
AC Power Inmax. 16A
AC Power Out2x 10A
AC Power Inmax. 16A
AC Power Out2x 10A
Ethernet Hub
Power Module
Ethernet
RSBSt.by PP
PC V.24
Relay/I²C
Relay/I²C
Power Module
Ethernet
RSBSt.by PP
PC V.24
Relay/I²C
Relay/I²C
Configuration Master RPS
5.5 Master RPS
A master RPS primarily has the task to send switch orders to slave and sub-enclosure RPSs via ethernet. Over and above the PRIMEPOWER Server can be powered on remotely via ethernet by an external master RPS that is connected to it (standby current supply available).
A master RPS, which can either be integrated in the server system (as a PCI-RSB because no PC (power control) adapter is available) or connected exter-nally, must be used in the following cases:
● For switching peripherals connected via fibre channel.
● For implementing the “last one turns out the lights” function in multihost configurations in which peripherals are shared. In this case, each of the participating server systems must be equipped with a master RPS.
I The Master RPS of one clusternode can be configured as Slave RPS in
U41285-J-Z816-2-76 31
other nodes and thus can also be used for node elimination. But it can not function as sub-enclosure at the same time.
Figure 13: Connecting an external master RPS to a PRIMEPOWER system
RPS
IN1
OUT2 3 4
OUT PC LAN5
PCI
ININPCLAN
System 1
Primepower (PW)
Master
LAN HUB
RPS
IN1
OUT2 3 4
OUT PC LAN5
SlaveRPS
IN1
OUT2 3 4
OUT PC LAN5
Slave
PCI
ININPCLAN
System 1
Primepower (PW)
LAN HUB
RPS
IN1
OUT2 3 4
OUT PC LAN5
SlaveRPS
IN1
OUT2 3 4
OUT PC LAN5
Slave
MasterRSBLAN
Multihost configuration with master and slave RPS Configuration
5.6 Multihost configuration with master and slave RPS
If the “last one turns out the lights” function is to be implemented in multihost configurations with shared use of peripherals, the following RPSs must be used:
● Each of the participating server systems must be equipped with a master RSB (in the form of an RSB in the externally connected RPS or an internal PCI-RSB).
● Each of the participating peripherals must be equipped with one or two sub-enclosure RPSs.
Master-RSB
RPS
Master-RSBMaster-RSB
RPS
32 U41285-J-Z816-2-76
Figure 14: Schematic layout of a multihost configuration with master and sub-enclosure RPS
RPS
RPS
RPS1. Slave
RPS2. Slave
FibreCAT S80
Host 1Host 1
Host 2
FibreCAT S80
Power
Ethernet
Master-RSB
RPS
RPS
RPS
RPS1. Subenclosure
RPS2. Subenclosure
FibreCAT S80
Host 1Host 1
Host 2
FibreCAT S80
Power
Ethernet
Master-RSBMaster-RSB
RPS
Configuration Additional configuration diagrams
5.7 Additional configuration diagrams
Five simplified sketches have been included below for the sake of clarity:
● Only the RPS-specific connections (network, PC and Ethernet cable) are depicted. The mass storage and other connections are not drawn in.
● All Ethernet cables are combined. The respective Ethernet hub required is not shown.
● The external standby power pack (PP) of a PCI master RSB is omitted. (An RSB is used as a PCI controller if the server system does not have a PC (power control) adapter.)
● Safety boxes, which have to be used in some cases to increase the contact ratings, are omitted.
Multihost configurations that use peripheral cabinets simultaneously are shown
U41285-J-Z816-2-76 33
with just two server systems each. The peripheral cabinets are designed as single instances in this case and not in duplicate as is usual in HA configura-tions.
The associated SMAWrsb configuration is specified in the diagrams for the participating PRIMEPOWER systems while the cabinet numbers are specified for short instead of the necessary RSB access parameters (IP address, IP port number, user name, password).
Indication of the power ports (Out) as:
* decimal sum: Out1=1 2=2 3=4 4=8 5=16 with several ports e.g. 1,3,5 = 21
x number: Out1=1 2=2 3=3 4=4 5=5 with several ports e.g. 1 3 5
# if available
Additional configuration diagrams Configuration
5.7.1 Multimaster peripherals with master RSB
S80, switched via 2 RPS boxes, with 2 PRIMEPOWER systems with PCI Master RSB.
The S80 is powered on as soon as one system is powered on.
The S80 is powered off when both systems are powered off.
PCI
MasterRSB
RPS 4
OUT2 3 4
RPS 3
OUT2 3 4
PCI
MasterRSB
S80
LAN PC IN IN ININPCLAN
IN
IN
LANLAN
System 0 System 1
subenclosure subenclosure
Multimaster peripheral: yesNode elimination: no PW poweron: no
PRIMEPOWER (PW) PRIMEPOWER (PW)
34 U41285-J-Z816-2-76
Figure 15: 2 x PW with DPF and PCI master RSB on multimaster peripherals
Further peripherals can be connected to the free ports of the RPS3 and RPS4. The configuration must then be extended by these ports.
The first setting of the IP addresses is done via V.24 interface.
IP addresses:
RSB Sys0: 192.0.0.0 RPS3: 192.0.0.2 RSB Sys1: 192.0.0.1
RPS4: 192.0.0.3
IN1
OUT PC LANIN1
OUT PC LAN
Power Power Power Power
Ethernet
master:RSBsubencl:3 4
master:RSBsubencl:3 4
5 5
192.0.0.0 192.0.0.2 192.0.0.3 192.0.0.1
Configuration Additional configuration diagrams
Input at system 0:
Sys0> rsb -w master:192.0.0.0 PCI RSB Sys0 becomes master
Sys0> rsb -w subencl:192.0.0.2::::1 * RPS3 Out1 becomes subenclosure
Sys0> rsb -w subencl:192.0.0.3::::4 * RPS4 Out3 becomes subenclosure
Sys0> rsb -cs Activation of the input
After a system reboot, the S80 is powered on as well.
Alternatively, the S80 can be powered on using the following commands:
Sys0> rsb 192.0.0.2 on 1 x powers on RPS3 Out1.
Sys0> rsb 192.0.0.3 on 3 x powers on RPS4 Out3.
Input at System 1:
Sys1> rsb -w master:192.0.0.1 PCI RSB Sys1 becomes master
Sys1> rsb -w slave:192.0.0.2 RPS1 becomes slave
U41285-J-Z816-2-76 35
Sys1> rsb -w slave:192.0.0.3 # RPS2 becomes slave
Sys1> rsb -w subencl:192.0.0.4::::8 * RPS3 Out4 becomes subenclosure
Sys1> rsb -w subencl:192.0.0.5::::8 * RPS4 Out4 becomes subenclosure
Sys1> rsb -cs
To have the system entered as powering-on system in RPS3 and RPS4, a system reboot is required. Alternatively, the input commands can be used as with system 0.
Additional configuration diagrams Configuration
5.7.2 Two PW servers with PCI master RPS on multimaster peripherals
S80, switched via 2 RPS boxes, as well as 2 RPS boxes (4 RPS boxes with DPF) in the current entry of the PRIMEPOWER systems for node elimination.
The S80 is powered on, as soon as one system is powered on.
The S80 is powered off, when both systems are powered off.
PRIMEPOWER (PW)
PCI PCIS80 IN
IN
System 0 System 1
PRIMEPOWER (PW)
Multimaster Peripheral: yesNode elimination: yes PW poweron: yes
36 U41285-J-Z816-2-76
Figure 16: 2 x PW with PCI master RSB with S80 (FC, RAID)
Other peripherals can be connected to the free ports of the RPS3 and RPS4. In this case the configuration must be extended by these ports.
IP Adressen:
RPS1: 192.0.0.2 RPS3: 192.0.0.4 RPS6: 192.0.0.6
RPS2: 192.0.0.3 RPS4: 192.0.0.5 RPS7: 192.0.0.7
LAN PC IN IN ININPCLAN
Power Power PowerEthernet
master:1subencl:3 4slave:6 7
master:6subencl:3 4slave:1 2
RPS 1
IN1
OUT2 3 4
OUT PC LAN
RPS 2
IN1
OUT2 3 4
OUT PC LAN
slaveMaster
5 5
RPS 4
IN1
OUT2 3 4
OUT PC LAN
RPS 3
IN1
OUT2 3 4
OUT PC LAN
subenclosure subenclosure
5 5IN
1
OUT2 3 4
OUT PC LAN
RPS 7
IN1
OUT2 3 4
OUT PC LAN
slave
5 5
RPS 6Master
192.0.0.3 192.0.0.4192.0.0.2 192.0.0.5 192.0.0.6 192.0.0.7
not to apply with single phase mains connection of the PW
Configuration Additional configuration diagrams
The first setting of the IP addresses is done via V.24 interface. At the same time the required output ports of RPS1, 2, 6 and 7 should be powered on.
Input at system 0
Sys0> rsb -w master:192.0.0.2 RPS1 becomes master
Sys0> rsb -w slave:192.0.0.6 RPS6 becomes slave
Sys0> rsb -w slave:192.0.0.7 # RPS7 becomes slave
Sys0> rsb -w subencl:192.0.0.4::::8 * RPS3 Out4 becomes subenclosure
Sys0> rsb -w subencl:192.0.0.5::::8 * RPS4 Out4 becomes subenclosure
Sys0> rsb -cs activating the input
After a system reboot, the S80 is powered on as well. Alternatively, the S80 can be powered on using the following commands:
U41285-J-Z816-2-76 37
Sys0> rsb 192.0.0.4 on 4 x powers on RPS3 Out4.
Sys0> rsb 192.0.0.5 on 4 x powers on RPS4 Out4.
The system is entered in RPS3 and RPS4 as powering-on system in the follo-wing way. Input at system 1:
Sys1> rsb -w master:192.0.0.6 RPS6 becomes master
Sys1> rsb -w slave:192.0.0.2 RPS1 becomes slave
Sys1> rsb -w slave:192.0.0.3 # RPS2 becomes slave
Sys1> rsb -w subencl:192.0.0.4::::8 * RPS3 Out4 becomes subenclosure
Sys1> rsb -w subencl:192.0.0.5::::8 * RPS4 Out4 becomes subenclosure
Sys1> rsb -cs
To have the system entered as powering-on system in RPS3 and RPS4, a system reboot is required. Alternatively, the input commands can be used as with system 0.
System 1 powers off System 0 example node elimination
Sys1> rsb 192.0.0.2 foff 4 x powers off RPS1 Out4.
Sys1> rsb 192.0.0.3 foff 4 #x powers off RPS2 Out4.
System 1 powers on System 0 again
Sys1> rsb 192.0.0.2 on 4 x powers on RPS1 Out4.
Sys1> rsb 192.0.0.3 on 4 #x powers on RPS2 Out4.
Additional configuration diagrams Configuration
5.7.3 Multimaster peripherals and node elimination with master RSB (Server without PCI)
S80, switched via 2 RPS boxes, as well as 2 RPS boxes (4 RPS boxes with DPF) in the current entry of the PRIMEPOWER systems for node elimination with 2 PCI Master RSBs.
The S80 is powered on as soon as one system is powered on.
The S80 is powered off when both systems are powered off.
PRIMEPOWER (PW)
PCI
MasterRSB
PCI
MasterRSB
S80 IN
IN
LANLAN
System 0 System 1
Multimaster Peripherals:yesNode elimination: yes PW poweron: no
PRIMEPOWER (PW)
38 U41285-J-Z816-2-76
Figure 17: 2 x PW with DPF and master RPS on multimaster peripherals
Other peripherals can be connected to the free ports of the RPS3 and RPS4. In this case, the configuration must be extended by these ports.
IP addresses:
RSB Sys0: 192.0.0.0 RSB Sys1: 192.0.0.1
RPS1: 192.0.0.2 RPS3: 192.0.0.4 RPS6: 192.0.0.6
RPS2: 192.0.0.3 RPS4: 192.0.0.5 RPS7: 192.0.0.7
LAN IN IN
Power Power PowerEthernet
master:RSBsubencl:3 4slave:6 7
master:RSBsubencl:3 4slave:1 2
not to apply with single phase mains connection of the PW
RPS 1
IN1
OUT2 3 4
OUT PC LAN
RPS 2
IN1
2 3 4
OUT PC LAN
slaveslave
5 5
RPS 4
IN1
2 3 4
OUT PC LAN
RPS 3
IN1
2 3 4
OUT PC LAN
subenclosure subenclosure
5 5IN
1
OUT2 3 4
OUT PC LAN
RPS 7
IN1
OUT2 3 4
OUT PC LAN
slave
5 5
RPS 6slave
192.0.0.0 192.0.0.3 192.0.0.4 192.0.0.1192.0.0.2 192.0.0.5 192.0.0.6 192.0.0.7
LAN IN IN
OUT OUT OUT
Configuration Additional configuration diagrams
The first setting of the IP addresses is done via V.24 interface. At the same time the required output ports of RPS1, 2, 6 and 7 should be powered on. Input at system 0:
Sys0> rsb -w master:192.0.0.0 PCI RSB Sys0 becomes master
Sys0> rsb -w slave:192.0.0.6 RPS6 becomes slave
Sys0> rsb -w slave:192.0.0.7 # RPS7 becomes slave
Sys0> rsb -w subencl:192.0.0.4::::8 * RPS3 Out4 becomes subenclosure
Sys0> rsb -w subencl:192.0.0.5::::8 * RPS4 Out4 becomes subenclosure
Sys0> rsb -cs activation of input
After a system reboot, the S80 is powered on as well. Alternatively, the S80 can be powered on using the following commands:
Sys0> rsb 192.0.0.4 on 4 x powers on RPS3 Out4.
U41285-J-Z816-2-76 39
Sys0> rsb 192.0.0.5 on 4 x powers on RPS4 Out4.
The system is entered in RPS3 and RPS4 as powering-on system in the follo-wing way. Input at system 1:
Sys1> rsb -w master:192.0.0.1 PCI RSB Sys1 becomes master
Sys1> rsb -w slave:192.0.0.2 RPS1 becomes slave
Sys1> rsb -w slave:192.0.0.3 # RPS2 becomes slave
Sys1> rsb -w subencl:192.0.0.4::::8 * RPS3 Out4 becomes subenclosure
Sys1> rsb -w subencl:192.0.0.5::::8 * RPS4 Out4 becomes subenclosure
Sys1> rsb -cs
To have the system entered as powering-on system in RPS3 and RPS4, a system reboot is required. Alternatively, the input commands can be used as with system 0.
System 1 powers off System 0 Example node elimination
Sys1> rsb 192.0.0.2 foff 4 x powers off RPS1 Out4.
Sys1> rsb 192.0.0.3 foff 4 #x powers off RPS2 Out4.
System 1 powers on System 0 again
Sys1> rsb 192.0.0.2 on 4 x powers on RPS1 Out4.
Sys1> rsb 192.0.0.3 on 4 #x powers on RPS2 Out4.
Additional configuration diagrams Configuration
5.7.4 Node elimination with slave RPS
2 RPS boxes (4 RPS boxes with DPF) in the current entry of the PRIMEPOWER systems for node elimination.
PCI PCIS80
LAN IN IN ININLAN
IN
IN
System 0 System 1
OUT2 3 4
OUT2 3 4
PRIMEPOWER (PW)
slave:6 7
slave:1 2
PRIMEPOWER (PW)
Multimaster Peripheral: noNode elimination: yes PW poweron: no
OUT2 3 4
OUT2 3 4
not to apply with single phase mains connection of the PW
40 U41285-J-Z816-2-76
Figure 18: 2 x PW with slave RPS on non multimaster peripherals
The first setting of the IP addresses is done via V.24 interface. At the same time the required output ports of RPS1, 2, 6 and 7 should be powered on.
Input at System 0:
Sys0> rsb -w slave:192.0.0.6 RPS6 becomes slave
Sys0> rsb -w slave:192.0.0.7 # RPS7 becomes slave
Sys0> rsb -cs activating the input
IP addresses:
RPS1: 192.0.0.2 RPS6: 192.0.0.6
RPS2: 192.0.0.3 RPS7: 192.0.0.7
Power PowerEthernet
RPS 1
IN1
OUT PC LAN
RPS 2
IN1
OUT PC LAN
slave
Power
slave
5 5
192.0.0.2 192.0.0.3 192.0.0.6 192.0.0.7
IN1
OUT PC LAN
RPS 7
IN1
OUT PC LAN
slave
5 5
RPS 6slave
Configuration Additional configuration diagrams
Input at System 1:
Sys1> rsb -w slave:192.0.0.2 RPS1 becomes slave
Sys1> rsb -w slave:192.0.0.3 # RPS2 becomes slave
Sys1> rsb -cs
System 1 powers off System 0 example node elimination
Sys1> rsb 192.0.0.2 foff 4 x powers off RPS1 Out4.
Sys1> rsb 192.0.0.3 foff 4 #x powers off RPS2 Out4.
System 1 powers on System 0 again
Sys1> rsb 192.0.0.2 on 4 x powers on RPS1 Out4.
Sys1> rsb 192.0.0.3 on 4 #x powers on RPS2 Out4.
U41285-J-Z816-2-76 41
Additional configuration diagrams Configuration
5.7.5 Possible Network Cabling for RPS
UPS RPS
Server /Server /
UPS
MasterRPS
PowerContr.
PW-ServerUPS
PowerContr.
PW-Server
MasterRPS
DPF configuration withMaster RPSvia redundant UPSwithout node elimination
DPF configuration withMaster RPSwithout UPS and withoutnode elimination
DPF configurationwith RPS (also a
2x 16A ACInput
2x 16A ACInput
2x 16A ACInput
Connection to UPS viacable A3C40009611
Power distributor
Power distributor
42 U41285-J-Z816-2-76
Figure 19: Network Cabling for RPS
Server /Peripherie
Server /Peripherie
PeripheriePeripheralsUPS RPS Master possible) via
redundant UPS
RPS
Server /Peripherie
Server /Peripherie
Server /Peripherie
Server /Peripherals
RPS
DPF configuration withRPS (also a MasterRPS possible)without UPS
UPS RPS
Server /Peripherie
Server /Peripherie
Server /Peripherie
Server /Peripherals
configuration withoutDPF with RPS (also aMaster possible),with or without UPS
2x 16A ACInput
1x 16A ACInput
RPS
Server
e.g. PW850
RPS
DPF configuration withRPS (also a Masterpossible) for servers withincoming current >16A
2x 32A ACInput
High-current
contactor
1x 16A ACInput
1x 16A ACInput
Connection to UPS viacable A3C40009611
Connection to UPS viacable A3C40009611
Power distributor
6 Contactor boxIf a switching capacity above 16 A is required, a contactor box can be added to the RPS.
U41285-J-Z816-2-76 43
Figure 20: Rear side of the contactor box
Connectors on the rear side
2xInput 32A-6h / 200-250V IEC 309 male connector
2xOutput 32A-6h / 200-250V IEC 309 female connector
2x230V Insulated male connectors (IEC 320) for addressing (interlockable)
Table 3: Connectors contactor box
Contactor
2x 4fold contactor 400V/AC 40A with 230V/AC control,max. 0,2A per circuit, shut-down
Table 4: Contactor
IN2 OUT2 ON1 ON2 OUT1 IN1
Contactor box
Figure 21: Front view of the contactor box
Front display
2 x green ON contactor1 / contactor2
44 U41285-J-Z816-2-76
2 x orange active Output1 / Output2
Table 5: Contactor display
Contactor box
Network cabling for contactor box 2x 32A with RPS
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< � � � � � � � � $
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! " # $ % � ! & $ � ' ! & � � � ( � � � $ � � � ) � ! � � & � " � * � � �
! " # $ % � ! & $ � ' ! & � � � ( � � � $ � � � ) � ! � � & � " � * � � �
� � � � � � 0 � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 0 �
U41285-J-Z816-2-76 45
Figure 22: Network cabling contactor box
� � � � � � � � � � � �
� � � � � � � � � � � �
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$ � # � � � � � � % & �
$ � # � � � � �$ � # � � � � �
� / 0 � � � � 1 � " � �� � � ( ) ) � ( * � � � + ( - .� � 2 � � � 3 � � � � � � & � � �� � � � � - 4 � � � � � � � ) �
� �
� / 0 � � � � 1 � " � � �� � � ( ) ) � 5 ( * � + ' - .� � 2 � � � 3 � � � � � � & � � �� � � � � # � � � � � � � �
+ � � � � � � � .+ � � � � � � � .
� � � � � � � � � � 6 7 � � & � � � � � , � � �� / 0 � � � � 1 9 : � � $
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� / � � � 1 : � ;� � � ( ) ) � 5 5 (
� $ � � � � � � $
� � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �
� � � � � � � � � �� � � �
� � � � � � � � � �� � � � � � � �
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� � � � � � � � � � � �� � � � � � � � � �
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� �� � � � � � � � � �$ � # � � � � �
� / � � � 1 : � ;� � � ( ) ) � 5 5 (
� � � � � � � � � � � �� � � � � � � � � � �
� / 0 � � � � 1 � " � �� � � ( ) ) � ( * � � � + ( - .� � 2 � � � 3 � � � � � � & � � �� � � � � - 4 � � � � � � � ) �
� �
� / 0 � � � � 1 � " � � �� � � ( ) ) � 5 ( * � + ' - .� � 2 � � � 3 � � � � � � & � � �� � � � � # � � � � � � � �
Contactor box
The figure below shows how the contactor box and the RPS are installed in a rack:
46 U41285-J-Z816-2-76
Figure 23: Rack installation for contactor and RPS
Dimensions and weight
Width 19“ (482,6 mm)
Height 3 HUs (133.35 mm)
Depth 273 mm
Weight 4.30 kg
Table 6: Contactor dimensions and weight
Standards complied with
Product security and ergonomics Product class B according toSN 29067-6
Admittance Declaration of conformity(CE)
CB Test Certificate
Table 7: Standards complied with contactor
7 Technical data of the RPS
Power ratings
Internal standby power pack
- Rated voltage 100 V - 240 V
- Rated frequency 50 Hz / 60 Hz
- Capacity 10 W
Switching capacity
- AC input 1 x 230 V / 16 A
- AC output 4 x 230 V / 10 A
Dimensions and weights
U41285-J-Z816-2-76 47
Height 42 mm
Width 221 mm
Depth 245 mm
Weight 2.0 kg
External transport dimensions and weight
- Height 180 mm
- Width 410 mm
- Depth 285 mm
- Weight 850g
Technical data of the RPS
Environmental conditions (according to EN 60721-3-x)
Climate (class 3K2):
- Temperature 15 °C to 35 °C
- Relative humidity 5 % to 85 %
- Normal level (NN) maximum 3.048 m
Transport (class 2K2):
- Temperature -25 °C to 60 °C
- Relative humidity 15 % to 98 %
- Normal level (NN) maximum 15.240 m
Mechanical environmental conditions
- Operation Class 3M2
- Transport Class 2M2
48 U41285-J-Z816-2-76
Standards
Product safety and ergonomics Product class B, IEC 60950 (EN 60950), UL 1950, CSA 22.2 No. 950
Licenses UL/cUL approval, CCA certificate, conformity declaration (CE)
Electromagnetic compatibility
- Emitted interference EN 55022-B, FCC Class A (USA)C 108.8 Class A (Canada)
- Immunity suppression EN 50082 T1
Maintenance areas and ventilation distances
Predefined in accordance with rack cabinet
8 Product names/replacement parts
8.1 Product structureStatus of replacement parts list: 13.02.03
Updates available at http://extranet.fujitsu-siemens.com/service/primepower
Order unit num-bers/
Unit offered
Deliveryunit
Assembly Name
D:RPS-BOX A3C40038762 A3C40036884 RP switch
U41285-J-Z816-2-76 49
D:GP7KB-1903 A3C40039521 A3C40039488 Signal cable (PC interface)
D:GP70F-SV31 ZB07162616 07653.00.5.16 Insulated cable, F/CEEform
D:KB259-C250 A3C40039779 A3C40009611 Power cable, 16A, 2.5m insulated
D:GPRAC-ZB22E A3C40031993 19" support for 2 x RP switches
D:GP70F-ZB211 29840 retaining clip set
D:GP70K-SV55 A3C40039038 A3C40038167 Safety box, 2 x 32A
part of delivery unit
A3C40037462 2x Extension cable, 4m CEE 32A
part of delivery unit
56452.07.6.16 2x Power cable 0,2 m
Table 8: Product structure
Other cables Product names/replacement parts
8.2 Other cables
Cables for configuring the RSB via V.24 (from the COM port of a PC to the V.24 port of the RSB):
D:KB004-M3 KB52190015 5576600016 cable from PC COM port to zu V.24 port of the RSB, 3m
D:KB004-M15 KB53660516 5576602016 cable from PC COM port to zu V.24 port of the RSB, 15m
5645221616 Power cable with insulated connector, 0,7m
5466107216 Power cable with insulated connector, 2m
A3C40028569 PRIMEPOWER 1,5 m con-
50 U41285-J-Z816-2-76
sole cable
D:GP7KB-13xx
CAT5 UTP LAN cable (xx=02/05/10/15/30/50 or A0=100m)
AbbreviationsA Ampere
AC Alternating Current
CCITT Comité Consultatif International de Telegraphique et Telephoni-que (International Telegraph and Telephone Consultative Com-mittee) [now ITU-T]
CEE International Commission on Rules for the Approval of Electrical Equipment
DIN Deutsches Institut für Normung (German Standardization Insti-tute)
U41285-J-Z816-2-76 51
DPF Dual Power Feed
EPROM Erasable Programmable Read-Only Memory
FC Fibre Channel
FSC Fujitsu Siemens Computers
Hz Hertz
HA High availability
I2C Inter Integrated Circuit (Serial Bus)
ID Identification/Identity/Identifier
IEC International Electrotechnical Commission
IP Internet Protocol
JBOD Just a Bunch of Disks
kA Kilo-Amperes
kg Kilogram
Abbreviations
LAN Local Area Network
LCD Liquid Crystal Display
LED Light Emitting Diode
m Meter
Mbit/s Megabit per second
MID Module/Manufacturer Identification/Identity/Identifier
mm Millimeter
PC Power Control (connection to PRIMEPOWER systems)
PCI Peripheral Component Interconnect
52 U41285-J-Z816-2-76
PCR1 PRIMECENTER/PRIMEOFFICE rack to July 2002(height variants12 and 38 U)
PCR2 PRIMECENTER rack from July 2002 (height variants 12, 24, 38 and 46 U)
PP Power Pack
PW PRIMEPOWER
RAID Redundant Array of Inexpensive Disks
RCA4 Remote Communication Adapter 4
RPS Remote Power Switch
RSB Remote Server (Management) Board
s Second
TELNET Network Virtual Terminal Protocol (Internet)
Abbreviations
U Height Unit (in the rack)
V Volt
V.24 CCITT Standard Protocol for Analog Circuits
VT100 Virtual Terminal 100
W Watt
U41285-J-Z816-2-76 53
FiguresFigure 1: Components and external RSB connections (schematic) 5
Figure 2: Component overview from front left above, cover removed 6
Figure 3: Component overview from rear left below . . . . . . . . 6
Figure 4: Components on the front side . . . . . . . . . . . . . . 7
Figure 5: Components on the rear side . . . . . . . . . . . . . . . 7
Figure 6: Carrier plate for two RPSs (or RCA4) . . . . . . . . . . 9
Figure 7: Carrier plate for two RPSs (or RCA4) . . . . . . . . . . 10
Figure 8: RPS/RCA4 carrier plate assembly (horizontal) in the PRIMECENTER(2) rack . . . . . . . . . . . . . . . . . 12
U41285-J-Z816-2-76 55
Figure 9: RPS/RCA4 carrier plate assembly (horizontal) in the PRIMECENTER(1)/PRIMEOFFICE rack . . . . . . . . . 13
Figure 10: Cabinet ID switches . . . . . . . . . . . . . . . . . . . . 15
Figure 11: Configuration example with 2 x RPS, 2 x < 16A contact ratings and dual power feed . . . . . . . . . . . . . . . 26
Figure 12: Configuration example with 2 x RPS, 1 contact rating > 16A with dual power feed . . . . . . . . . . . . 30
Figure 13: Connecting an external master RPS to a PRIMEPOWER system . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Figure 14: Schematic layout of a multihost configuration with master and sub-enclosure RPS . . . . . . . . . . . . . . . . . 32
Figure 15: 2 x PW with DPF and PCI master RSB on multimaster peripherals . . . . . . . . . . . . . . . . . . . . . . . . 34
Figure 16: 2 x PW with PCI master RSB with S80 (FC, RAID) . . . 36
Figure 17: 2 x PW with DPF and master RPS on multimaster peripherals . . . . . . . . . . . . . . . . . . . . . . . . 38
Figure 18: 2 x PW with slave RPS on non multimaster peripherals . 40
Figure 19: Network Cabling for RPS . . . . . . . . . . . . . . . . . 42
Figures
Figure 20: Rear side of the contactor box . . . . . . . . . . . . . . 43
Figure 21: Front view of the contactor box . . . . . . . . . . . . . 44
Figure 22: Network cabling contactor box . . . . . . . . . . . . . . 45
Figure 23: Rack installation for contactor and RPS . . . . . . . . . 46
56 U41285-J-Z816-2-76
TablesTable 1: Functions of RPS components . . . . . . . . . . . . . . . . 7
Table 2: Technical data power distribution rack . . . . . . . . . . . . 29
Table 3: Connectors contactor box . . . . . . . . . . . . . . . . . . 43
Table 4: Contactor . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
Table 5: Contactor display . . . . . . . . . . . . . . . . . . . . . . . 44
Table 6: Contactor dimensions and weight . . . . . . . . . . . . . . 46
Table 7: Standards complied with contactor . . . . . . . . . . . . . . 46
Table 8: Product structure . . . . . . . . . . . . . . . . . . . . . . . 49
U41285-J-Z816-2-76 57
Index
_rsbtab(4) 25
19" rack 15, 28
Aabbreviations 51AC
input 47output 47
admittance 46AUTO 3, 8
configuration 16V.24 cable 50
configuration examples 25console 8control panel switch 3, 8
Ddelayed poweron/off 2dependencies 3depth 47DIN VDE 29dual power feed 27
Eelectromagnetic compatibility 48emitted interference 48environmental conditions 48
Bbasic information 1box ID 8
U41285-J-Z816-2-76 59
Ccabinet ID 8, 15Cabinet ID switch 15cabinet number 33cables 50cabling 15capacity 47carrier plate 9
RPS assembly 9CEE 15CEEform 16A (IEC309) 27CEEform 32A (IEC309) 27circuit breaker 7, 27climate 48cluster 1clusternode 31component overview 5, 6components
function 7mechanical 6RPS front side 7RPS rear side 7schematic 5
ergonomics 46, 48Ethernet 1, 8ethernet port 16Extranet 4extranet 4
Ffibre channel 31FibreCAT 1firmware 18, 21
HHA configuration 33height 47high-availability configuration 16high-current contactor 27hub 33humidity 48hyper terminal 16
Index
II2C 8IEC309 15immunity suppression 48industrial plug 15initial configuration 16Internet 4IP address 33IP port number 33
LLAN configuration 18, 21LED
load output 8PC port 8RSB 8, 16
licenses 48
Ppackage 15, 16, 25password 33PC 8PCI master RSB 33PCI-RSB 3PCR1 9PCR2 9peripheral 32peripherals 31potential equalization 28power control 8power control adapter 3power distribution rack 27, 28power down 3power draw 3power feed 28
60 U41285-J-Z816-2-76
LINUX 16, 25load break switch 27, 28LOCK 3, 8login 4
Mmain components 7mainframe 27mains connection 7mains ports 15master 16master RPS 3, 31, 32menu system 16MID 8mini DIN 8multihost 32multihost capability 1multihost configuration 33Multimaster 2
NNN 48Node elimination 2node elimination 2, 28normal level 48notational conventions 4
power in 7power module 7power out 7poweron/poweroff delay 16PRIMECENTER 9PRIMEOFFICE 9PRIMEPOWER 1, 27PRIMEPOWER650 27PRIMEPOWER850 27PRIMEPOWER900 27product names 49product safety 48Product security 46product structure 49PW ON/OFF 8
Rrack installation 9RAID 28rated frequency 47rated voltage 47RCA4 9redundant configuration 26, 27relay 8release restrictions 3remote power-on function 3
Index
Remote Server Management Board 2
replacement parts 49replacement parts list 49rps_delay(1M) 25RSB 7, 8RSB access parameter 33RSB config connector 8RSB external power 8RSB login 16rsb(1M) 25
Ssafety box 1, 33safety socket 27search engine 4serial port 16
Uuser name 33
VV.24 16V.24 cable 50V.24 interface 40
Wweight 47width 47
U41285-J-Z816-2-76 61
signal cable 15slave 16slave RPS 32SMAWrsb 15, 16, 25software package 16, 25SOLARIS 16, 25spare sockets 29standard rack 9standards 46, 48standby power pack 8, 33startup 15Subenclosure 2sub-enclosure 32switch assembly 7switching capacity 47system affiliation 1
Ttechnical data 47telnet 16temperature 48transport 47
Comments on Remote Power Switch (RPS)
U41285-J-Z816-2-76
CommentsSuggestionsCorrections
✁
Submitted by
Fujitsu Siemens Computers GmbHUser Documentation33094 PaderbornGermany
Fax: 0 700 / 372 00001
e-mail: [email protected]://manuals.fujitsu-siemens.com
Comments on Remote Power Switch (RPS)
U41285-J-Z816-2-76
CommentsSuggestionsCorrections
✁
Submitted by
Fujitsu Siemens Computers GmbHUser Documentation33094 PaderbornGermany
Fax: 0 700 / 372 00001
e-mail: [email protected]://manuals.fujitsu-siemens.com
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