Intel SC5299WS computer case
Contents
1. 2 5 7 2 AC Input Connector The AC input connector is an IEC 320 C 14 power inlet This inlet is rated for 15A 250VAC 2 5 7 3 AC Input Voltage Specification The power supply operates within all specified limits over the input voltage range shown in the following table Harmonic distortion of up to 10 of the rated line voltage must not cause the power supply to go out of specified limits The power supply does power off if the AC input is less than 75VAC 5VAC range The power supply starts up if the AC input is greater than 85VAC 4VAC Application of an input voltage below 85VAC does not cause damage to the power supply including a fuse blow Revision 3 1 89 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 110 AC Input Rating Parameter MIN Rated Vmax Imax Startup VAC Power Off VAC Voltage 110 90 Vims 100 127 Vims 140 Vims 12 he 85VAC 75VAC 4VAC 5VAC Voltage 220 180 Vims 200 240 Vrms 264 Vms SA Frequency 47 Hz 50 60 63 Hz UR Maximum input current at low input voltage range is measured at 90VAC at max load 2 Maximum input current at high input voltage range is measured at 180VAC at max load 3 This requirement is not used for determining agency input current markings 2 5 7 4 Efficiency The following table provides the required minimum efficiency level at various loading conditions These efficiency levels are provided at2. Intel Entry Server Chassis SC5299 E TPS Power Sub system Pin Signal 18 AWG Color Pin Signal 18 AWG Color 12 3 3 VDC Orange 24 COM Black Note 5V Remote sense may be double crimped into pin 4 if required to meet voltage regulation at the output connectors 2 2 4 3 P2 Processor Power Connector Connector housing 8 Pin Molex 39 01 2085 or equivalent Contact Molex 44476 1111 or equivalent Table 31 P2 Processor Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 1 COM Yellow 2 COM Yellow 3 COM Yellow 4 COM Yellow 2 2 4 4 P12 Baseboard Power Connector Connector housing 4 Pin Molex 39 01 2040 or equivalent Contact Molex Mini Fit Jr HCS 44476 1111 or equivalent Table 32 P12 Baseboard Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 2 2 4 5 P3 P4 P6 P7 P8 P9 Peripheral Power Connectors Connector housing AMP 1 480424 0 or equivalent Contact Amp 61314 1 contact or equivalent Table 33 P3 P4 P6 P7 P8 P9 Peripheral Power Connectors Pin Signal 18 AWG Color 1 12 V2 Green 2 COM Black 3 COM Black 4 5 VDC Red Revision 3 1 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 2 4 6 P5 Floppy Power Connector Connector housing AMP 171822 4 or equivalent Contact Amp 170204 1 contact or equivalent Table 34 P5 Floppy Power Connector Pin Signal 22 AWG Color 1
3. 10dB gain margin are required Closed loop stability is ensured at the maximum and minimum loads as applicable 2 5 8 9 The power supply is immune to any residual voltage placed on its outputs typically a leakage voltage through the system from standby output up to 500mV There is neither additional heat generated nor stress of any internal components with this voltage applied to any individual output and all outputs simultaneously It also does not trip the protection circuits during turn on The residual voltage at the power supply outputs for no load condition does not exceed 100mV when AC voltage is applied Residual Voltage Immunity in Standby Mode 2 5 8 10 The common mode noise on any output does not exceed 350mV pk pk over the frequency band of 10Hz to 30MHz Common Mode Noise 2 5 8 11 Soft Starting The power supply contains a control circuit that provides monotonic soft start for its outputs without overstress of the AC line or any power supply components at any specified AC line or load conditions There is no requirement for rise time on the 5Vstby but the turn on off is monotonic 2 9 8 12 When the power supply turns on the system loading maybe very light before it comes out of reset Under these conditions the power supply s output voltage regulation may be relaxed to 10 on the 3 3V and 5V rails and 10 8 on the 12V rails When the power supply is subsequently loaded it must begin to regulate and source
4. 5VDC Red 2 COM Black 3 COM Black 4 12V2 Green 2 2 4 7 P10 Right angle SATA Power Connector Connector housing JWT F6002HSO 5P 18 or equivalent Table 35 P10 SATA Power Connectors EC 2 2 4 8 P11 SATA Power Connector Connector housing JWT A3811H00 5P or equivalent Contact JWT A3811TOP OD or equivalent Table 36 P11 SATA Power Connectors 34 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 2 4 9 Output Power Currents The following table defines power and current ratings for the 550 W power supply The combined output power of all outputs does not exceed the rated output power The power supply meets both static and dynamic voltage regulation requirements for the minimum loading conditions Table 37 Load Ratings Output Voltage Minimum Maximum Peak Continuous Continuous 22A 500msec Notes 1 Maximum continuous total output power will not exceed 550 W 2 The maximum continuous total output power capability increases at lower ambient temperatures at a rate of 3 3W degree C up to 600 W with a 30 degrees C ambient temperature 3 Maximum continuous load on the combined 12V output will not exceed 40A at 45 degrees C ramping up to 44 A at 30 degrees C 4 Peak load on the combined 12V output will not exceed 48 A 5 Peak total DC output power will not exceed 600 W 6 Peak power and current loading is supported for a minimum of 12 seconds 7
5. 75 load 40 degrees C Standard Intel component de ratings RoHS compliant per directive 2002 95 EC lead free solder Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 2 1 Mechanical Outline 12mm Airflow 140 mm Label Area K 86 mm 6x32 THREADED HOLE 4x 74mm Figure 9 Mechanical Drawing for Power Supply Enclosure 2 2 1 1 Airflow Requirements The power supply shall incorporate an 80 mm fan for self cooling and system cooling The airflow direction shall be from the wire internal face of the power supply to the external face The power supply shall have adequate airflow with the following system airflow restriction Revision 3 1 25 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS System Flow Impedance in H20 COOC OCH on NORD System Pressure 0 10 20 30 40 Power Supply Airflow CFM Figure 10 System Airflow Impedance 2 2 1 2 Acoustic Requirements The fans speed shall vary linearly based on output loading and ambient temperature The declared sound power levels LwAd of the power supply unit PSU must meet the requirements shown in the table below Sound power must be measured according to ECMA 74 www ecma international org and reported according to ISO 9296 The acoustic measurement of the PSU shall be performed with the PSU fan operating at the RPM
6. 890 0 12 0 P10 78 0 12 0 P11 a PN 1 ma saw BA GND at Ea sl 3 i I i m a T ril aa oo A A KW PINS BLUE WHITE pm MESH SLEEVE ER R zu A Lesen 710 5 Figure 7 Output Cable Harness for 420 W Power Supply NOTES 1 ALL DIMENSIONS ARE IN MM 2 ALL TOLERANCES ARE 10 MM 0 MM 3 INSTALL 1 TIE WRAP WITHIN 12MM OF THE PSU CAGE 4 MARK REFERENCE DESIGNATOR ON EACH CONNECTOR 5 TIE WRAP EACH HARNESS AT APPROX MID POINT 6 TIE WRAP P1 WITH 2 TIES AT APPROXIMATELY 15M SPACING BLUE WHITE 12v2 aux mue SUCK GROUND EN va Ate 12 2 BUCK mue BUCK ROUNO RED sv BLACK GROUND Buck GROUND RED d PIN 1 PN4 EB BLACK GROUND BLUE WHITE 12V2 Revision 3 1 Intel order number D37594 005 11 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 3 Cable Lengths Length From To SEH No of pins Description mm roversnpycoroatos Pe as 8 Jesse EECHER mee Je _ Popo cowestr e Is l Connector 5 io i SATA Power Connector Power Supply cover exit hole ES Power Supply cover exit hole 2 1 3 1 P1 Baseboard Power Connector Connector housing 24 Pin Molex Mini Fit Jr 39 01 2245 or equivalent Contact Molex Mini Fit HCS Female Crimp 44476 or equivalent Table 4 P1 Baseboard Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 3 COM Black 4 5 VDC Green 5 COM Black s evc e T COM COM
7. High Power OK PWOK Low Power Not OK MIN MAX Logic level high voltage lsource 200 A Sink current PWOK low WEE 4mA Source current PWOK high ed 2mA PWOK rise and fall time a ae Power down delay T pwok off 1 ms Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 3 5 4 LEDs There is a bi color LED and a single color LED to indicate power supply status The LED operation is defined in the following table Table 70 LED Indicators Power Supply Condition Status LED Power Led Remarks AC OK Power Supply Fail Power Good AC Power Off OFF OFF AC power on in Standby Green OFF AC On and All Outputs in Normal Green Green Any DC Outputs Short Circuit Green Power Distribution OFF Board protection only module OK DC Fan Not Spinning Amber OFF Module protection only OTP Amber Green Send out alert signal The LEDs are visible on the power supply s exterior face The LEDs location meets Electrostatic Discharge ESD requirements LEDs are securely mounted in such a way that incidental pressure on the LEDs does not cause them to be displaced There are bits that allow the LED states to be forced via the SMBus The following capabilities are required Force Amber ON for failure conditions No Force LED state follows power supply present state The power on default is No Force The default is restored whenever PSON transitions to
8. Intrusion Switch 25 000 000 40 25 000 000 40 Total Chassis Assembly 75300 13 294 71700 13 961 136 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Appendix A Integration and Usage Tips Appendix A Integration and Usage Tips This appendix provides a list of useful information that is unique to the Intel Entry Server Chassis SC5299 E and should be kept in mind while integrating and configuring your server To maintain system thermals fixed hard drive bays must be populated in the slots in this order 1 3 5 2 4 and 6 To maintain system thermals hot swap hard drive bays must be populated with either a hard drive or drive blank System fans are not hot swappable The CPU air duct s must be used to maintain system thermals The Intel Local Control Panel can only be used with systems configured with an Intel Management Module Make sure the latest system software is loaded on the server This includes system BIOS FRU SDR BMC firmware and hot swap controller firmware The latest system software can be downloaded from http support intel com support motherboards server Revision 3 1 137 Intel order number D37594 005 Glossary Intel Entry Server Chassis SC5299 E TPS Glossary an Advanced Technology Extended Auto Ranging Power supply that automatically senses and adjust itself to the proper input voltage range 110 VAC or 220 VAC No manual switches or manual adjustments
9. and 5VSB The power supply uses remote sense to regulate out drops in the system for the 3 3V 5V and 12V1 outputs The remote sense input impedance to the power supply is greater than 200 on 3 3VS 5VS This is the value of the resistor connecting the remote sense to the output voltage internal to the power supply Remote sense must be able to regulate out a minimum of 200mV drop on the 3 3V output The remote sense return ReturnS must be able to regulate out a minimum of 200mV drop in the power 36 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system ground return The current in any remote sense line is less than 5 mA to prevent voltage sensing errors The power supply operates within specification over the full range of voltage drops from the power supply s output connector to the remote sense points 2 2 4 13 Standby Output The 5VSB output is present when an AC input greater than the power supply turn on voltage is applied 2 2 4 14 Voltage Regulation The power supply output voltages are within the following voltage limits when operating at steady state and dynamic loading conditions These limits include the peak peak ripple noise All outputs are measured with reference to the return remote sense signal ReturnS The 5V 12V1 12V2 12V and 5VSB outputs are measured at the power supply connectors referenced to ReturnS The 3 3V is measured at its remote sense signal 3 3VS
10. internal components of the server The cooling subsystem is dependent upon proper airflow The designated cooling vents on both the front and back of the chassis must be left open and must not be blocked by improperly installed devices All internal cables must be routed in a manner that does not impede airflow and ducting provided for CPU cooling must be installed Active heatsinks for CPUs incorporate a fan to provide cooling This thermal solution is included with some boxed Intel Xeon processors The Intel Entry Server Chassis SC5299 E is engineered to work with processors that have an active heatsink solution Proper installation of the processor cooling solution is required for circulating air toward the rear of the chassis toward I O connectors 106 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Peripheral and Hard Drive Support 4 Peripheral and Hard Drive Support TP02032 A Hard Disk Drive Bay Figure 22 Drive Bay Locations for Intel Entry Server Chassis SC5299 E DP WS BRP configuration shown 4 1 3 5 in Peripheral Drive Bay The Intel Entry Server Chassis SC5299 E supports one 3 5 in removable media peripheral such as a floppy or tape drive below the 5 25 in peripheral bays The bezel must be removed prior to 3 5 in removable media installation When a drive is not installed a s
11. located at the signal connector Table 40 Voltage Regulation Limits 5V 2 2 4 15 Dynamic Loading The output voltages are within limits specified for the step loading and capacitive loading specified in the following table The load transient repetition rate is tested between 50Hz and 5kHz at duty cycles ranging from 10 90 The step load may occur anywhere between the MIN load and MAX load conditions Table 41 Transient Load Requirements Step Load Size see Load Slew Rate Test Capacitive Load note 2 3 3VDC 5 0A 0 25 A sec 250 F 5V 4 0A 0 25 A sec Revision 3 1 37 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Step Load Size see Output Load Slew Rate Test Capacitive Load note 2 12V1 25 0A 0 25 A sec 2200 EI 12V2 25 0A 0 25 A sec 2200 F 0 25 A sec Notes 1 Step loads on each 12V output may happen simultaneously 2 The 12V should be tested with 2200 F evenly split between the two 12V rails 2 2 4 16 Capactive Loading The power supply is stable and meets all requirements with the following capacitive loading ranges Table 42 Capacitive Loading Conditions 2 2 4 17 Output MIN MAX Units 3 3V 250 6 800 F 5V 400 4 700 F 12V 1 2 500 each 11 000 F 12V 1 350 F 5VSB 20 350 F Closed Loop Stability The power supply is unconditionally stable under all line load transient load conditions including
12. 20 RN eson_on_delay Delay from PSON active to output voltages within regulation limits pson_pwok Delay from PSON deactive to PWOK being de asserted m pwok_on Delay from output voltages within regulation limits to PWOK 100 asserted at turn on pwok_off Delay from PWOK de asserted to output voltages 3 3V 5V 1 12V 12V dropping out of regulation limits pwok_low Duration of PWOK being in the de asserted state during an 100 ms off on cycle using AC or the PSON signal Delay from 5VSB being in regulation to O Ps being in 50 1000 ms regulation at AC turn on T5VSB_holdup Time the 5VSB output voltage stays within regulation after 70 ms loss of AC 100 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system AC Input el Tyout_holdup il Tpwok_low PSON i i i j AC turn on off cycle _ j lt PSON turn on off cycle i Figure 20 Turn On Off Timing Power Supply Signals 2 5 9 Protection Circuits Protection circuits inside the power supply cause only the power supply s main outputs to shutdown If the power supply latches off due to a protection circuit tripping an AC cycle OFF for 15 sec and a PSON cycle HIGH for 1 sec will reset the power supply 2 5 9 1 Over current Protection OCP The power supply has a current limit to prevent the 3 3V 5V and 12V outputs from exceeding the values shown in the following t
13. 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS 2 5 6 4 12V4 Power Connector P16 Connector housing 6 Pin Molex 39 01 2040 or equivalent Contacts Molex Mini Fit HCS 44476 1111 or equivalent Table 103 12V4 Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 1 COM Black 4 12V4 Green 2 COM Black 5 12V4 Green 2 5 6 5 PCI Express Connector P15 Connector housing 6 Pin Mole 455590002 or equivalent Contacts Molex Mini Fit HCS Female Crimp 44476 Table 104 PCI Express Connector 18 AWG Color ee gt 18 AWG Color vau om fe feo 2 5 6 6 Peripheral Power Connectors P3 P4 P6 P8 P11 Connector housing Amp 1 480424 0 or equivalent Contact Amp 61314 1 contact or equivalent Table 105 Peripheral Power Connectors Pin Signal 18 AWG Color 1 12 V4 Green 2 COM Black 3 COM Black 4 5 VDC Red 2 5 6 7 Right angle Peripheral Power Connector P7 Connector housing JWT F6001HS2 4P or equivalent Revision 3 1 Intel order number D37594 005 Power Sub system 87 Power Sub system Table 106 P7 Right angle Peripheral Power Connector Intel Entry Server Chassis SC5299 E TPS Pin 2 5 6 8 Signal 12V4 COM COM 5 VDC 18 AWG Color Green Black Black Red Floppy Power Connector P5 Connector housing Amp 171822 4 or equivalen
14. 30 A 12V1 0 5 A 16A 18A 12V2 1 0A 16A 18A 12V3 0 5 A 16A 18A 12V4 1 0A 16A 18A 12V OA 0 5A 5VSB 0 1A 3 0A 5A Notes 1 Maximum continuous total DC output power should not exceed 670 W 2 Maximum continuous load on the combined 12V output shall not exceed 48 A 3 Peak load on the combined 12V output shall not exceed 52 A 4 Peak total DC output power should not exceed 730 W 5 For 12V peak power and current loading shall be supported for a minimum of 12 seconds 6 For 5Vsb 5Vsb must withstand 5 A for 500 ms long under first turn on condition 7 Combined 3 3V and 5V power shall not exceed 170 W 2 5 8 4 Standby Output The 5VSB output is present when an AC input greater than the power supply turn on voltage is applied 2 5 8 5 Voltage Regulation The power supply output voltages stay within the following voltage limits when operating at steady state and dynamic loading conditions These limits include the peak peak ripple noise All outputs are measured with reference to the return remote sense signal ReturnS The 12V3 12V4 12V and 5VSB outputs are measured at the power supply connectors referenced to ReturnS The 3 3V 5V 12V1 and 12V2 are measured at the remote sense signal located at the signal connector Revision 3 1 95 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 117 Voltage Regulation Limits RS em omen vw once eo vm eee omen fma once eon
15. 4 7K to 5V GPIO12 3 3V SATA HDDO present HDO_INSTALL_L detection GPIO13 3 3V SATA HDD1 present HD1_INSTALL_L detection GPIO14 3 3V SATA HDD2 present HD2_INSTALL_L detection GPIO15 3 3V SATA HDD3 present HD3_INSTALL_L detection GPIO16 3 3V SATA HDD4 present HD4_INSTALL_L detection GPIO17 3 3V SATA HDD5 present HD5_INSTALL_L detection GPIO18 O 3 3V GPIO18 Pull up 4 7K to 5V GPIO19 3 3V FORCE UPDATE FROCE_UPDATE_L Pull up 4 7K to 5V GPIO20 3 3V DC Address control I2C_ADDR_CNRL Pull up 4 7K to 5V GP1021 O 3 3V GP1021 Pull up 4 7K to 5V GPIO22 O 3 3V GPI022 Pull up 4 7K to 5V GPI023 O 3 3V GPIO23 Pull up 4 7K to 5V 4 3 2 5 External Memory Device The 6HDD SATA HSBP contains non volatile 32K and 64K Serial EEPROM devices for Boot and Run Time Configuration code storage respectively These devices reside on the private 1 C bus of the GEM424 controller The SEEPROMs operate off the 5 0V rail and are housed in 8 pin small outline integrated circuit SOIC packages 4 3 2 6 detected 114 LEDs The 6HDD SATA HSBP contains a green ACTIVITY LED and a yellow FAULT LED for each of the six drive connectors The ACTIVITY LED is driven by the GEM424 or for drives that support the feature by the SATA hard drive itself whenever the drive is accessed The FAULT LED is driven by the GEM424 controller whenever an error condition as defined by the firmware is Intel order number D37594 005 Revision 3 1 Intel Entry Ser
16. Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 3 3 15 Residual Voltage Immunity in Standby Mode The power supply is immune to any residual voltage placed on its 12V output typically a leakage voltage through the system from standby output up to 1000 mV This residual voltage does not have any adverse effects on the power supply including additional power dissipation or over stressing over heating any internal components or adversely effect the turn on performance no protection circuits tripping during turn on While in standby mode at no load condition the residual voltage on 12V output does not exceed 100 mV 2 3 3 16 Soft Starting The power supply contains control circuits that provide monotonic soft start of its outputs without overstress of the AC line or any power supply components at any specified AC line or load conditions There is no requirement for rise time on the 5VSB but the turn on off is monotonic 2 3 3 17 Zero Load Stability Requirements When the power subsystem operates in a no load condition in a 1 0 or 1 1 configuration it does not need to meet the output regulation specification but it must operate without any tripping of over voltage or other fault circuitry When the power subsystem is subsequently loaded it must begin to regulate and source current without fault 2 3 4 Protection Circuits Protection circuits inside the power supply cause only the power supply s main outputs to shut down I
17. Number Description Reference 6 Amphenol G16A2111 SMD 7 pin SATA Control J1 J6 6 Foxconn LD28223 S03 THM 22 pin SATA Drive J7 J12 1 Molex 22 43 6040 THM 4 pin Header IPMB J13 J13 1 Molex 22 43 6030 THM 3 pin Header DC JP1 JP JP1 2 Molex 8981 04V THM 4 pin Connector Power JP4 JP5 FB Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Supported Intel Server Boards 4 3 2 14 SATA Hot Swap Drive Cage Upgrade Kit The SATA drive cage upgrade kit allows for installation of up to six SATA drives in the server The kit includes a SATA hot swap drive bay with mounting hardware With this kit the SATA hot swap drive cage can be directly connected to the SATA connectors on the server board for those server boards that have integrated Serial ATA or to a Serial ATA RAID card such as the Intel RAID Controller SRCS14L The RAID level that is supported depends on the feature set of the Serial ATA controller Kit Order Codes AXX6SATADB APP4HSDBKIT Revision 3 1 119 Intel order number D37594 005 Standard Control Panel Intel Entry Server Chassis SC5299 E TPS 5 Standard Control Panel The Intel Entry Server Chassis SC5299 E control panel configuration has a three button five LED control panel When the hot swap drive bay is installed a bi color hard drive LED is located on each drive carrier totally six to indicate specific drive failure or activity These LEDs are visible upon openi
18. OA Peak load 12 seconds 18A 18A 18A 18A 20A Max Output Power see note 1 12 x16A 12 x16A 12V x16A 12V x16A 12V x18A 192W 192W 192W 192W 216W Notes 1 12V maximum output current is 54 A 2 Peak power and current loading shall be supported for a minimum of 12 seconds 3 12V5 is the power source for the three DC DC converters to generate 3 3V 5V and 12V Revision 3 1 69 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 4 2 13 DC DC Converters Loading The following table defines the power and current ratings for the three DC DC converters located on the cage each is powered from a 12V5 rail The three converters meet both static and dynamic voltage regulation requirements for the minimum and maximum loading conditions Note 3 3V 5V combined power limit 170 W max Table 84 DC DC Converter Load Ratings 1 2VDC Input DC DC Converters 3 3V Converter 5V Converter 12V Converter MAX Load 24 0A 30 0A 0 3A MIN Static Dynamic Load OA OA OA Max Output Power see note 1 3 3x24 79 2W 5x30 150W 0 3x12 4 8W Notes 1 Maximum continuous total DC output power should not exceed 610 W 2 Peak power and current loading shall be supported for a minimum of 12 seconds 3 Combined 3 3V and 5V power shall not exceed 170 W 2 4 2 14 DC DC Converters Voltage Regulation The DC DC converters output voltages stay within the followi
19. Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 29 Cable Lengths From Length mm SE D Ge ot Description Power Supply cover exit hole 425 P1 24 Baseboard Power Connector Power Supply cover exit hole 720 P2 8 Processor Power Connector Power Supply cover exit hole 575 P12 4 12V1 Baseboard Power Connector Power Supply cover exit hole 250 P3 4 Peripheral Power Connector Extension from P3 100 P4 4 Peripheral Power Connector Extension from P4 100 P5 4 Floppy Power Connector Power Supply cover exit hole 740 P6 4 Peripheral Power Connector Extension from P8 75 P7 4 Peripheral Power Connector Power Supply cover exit hole 740 P8 4 Peripheral Power Connector Extension from P10 75 P9 4 Peripheral Power Connector Power Supply cover exit hole 740 P10 5 Right angle SATA Power Connector Extension from P12 75 P11 5 SATA Power Connector 2 2 4 2 P1 Main Power Connector Connector housing 24 Pin Molex Mini Fit Jr 39 01 2245 or equivalent Contact Molex Mini Fit HCS Female Crimp 44476 or equivalent Table 30 P1 Main Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 3 3RS Orange White 24AWG Blue 2 vesvoo com sick a lvo Ian Le Ten ge s ewe In ue oo ec 7 COM 19 COM Black 8 PWR OK 20 Reserved N C 9 5VSB 21 5 VDC Red 12VRS Yellow White 24AWG 5VRS Red White 24AWG 32 Intel order number D37594 005 Revision 3 1
20. Q Qi Q Qi Q E Oi E 4 70x2 Sg E 150 000 50 4 70x2 159 40 0 15 Figure 14 Mechanical Drawing for Dual 1 1 Configuration Power Supply Enclosure 2 4 1 1 There is no fan in the cage the cage is cooled by the fan in the power supply module s when Airflow Requirements combined together in the system 2 4 1 2 Temperature Requirements 4x SCREW 6 32 for RPS bracket The PDB operates within all specified limits over the Top temperature range Table 72 Environmental Requirements Item Description MIN MAX Units Operating temperature range 45 Revision 3 1 Intel order number D37594 005 63 Power Sub system Intel Entry Server Chassis SC5299 E TPS Item Description MIN MAX Units Thon op Non operating temperature range 40 70 C Altitude Maximum operating altitude 1500 m 2 4 1 3 Efficiency Each DC DC converter shall have a minimum efficiency of 85 at Max load and over 12V line voltage range and over temperature and humidity range 2 4 2 DC Output Specification 2 4 2 1 Input Connector Power Supply Mating Connector Table 73 Edge Finger Power Supply Connector Pin out Connector Upper Side Pin No Pin No Bottom Side Top Bottom 12V 1 2 12V Gold finger edge 12V 3 4 12V conn
21. SATA 7PIN Conn5 tS Bat SATA 7PIN Conn4 eS STATUS DG DISPLAY LED SATA 7PIN Conn3 S P 9 Band SATA 7PIN Conn2 gt Ge SATA 7PIN Conn1 gt Bast Hardware Monitor SMBus gt amp SAF TE P 2 Pag KR POWER CONN P 4 Figure 24 Intel Entry Server Chassis C5299 E 6HDD SATA HSBP Block Diagram 110 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Peripheral and Hard Drive Support 4 3 2 1 SATA Enclosure Management Controller The QLogic GEM424 enclosure management controller for the SATA backplane monitors various aspects of the storage enclosure The chip provides out of band SAF TE management through the SATA Host DC interface The GEM424 controller also supports the IPMI specification by providing management data to a baseboard management controller through the IPMB The GEM424 controller has general input and output pins GPIOs that allow for customization These GPIOs are used for hardware drive detection and driving FAULT and ACTIVITY LEDs The GEM424 controller comes in an 80 pin Thin Quad Flat Pack TQFP package and operates from 3 3V and an input clock frequency of 20MHz 4 3 2 2 SATA Interface The GEM424 controller implements SAF TE over the HBA TC interface The GEM424 controller supports the following SAF TE Command Set Read Enclosu
22. Server Chassis SC5299 E TPS Table 24 AC Line Sag Transient Performance Duration Sag Operating AC Voltage Line Performance Criteria Frequency Continuous 10 Nominal AC Voltage ranges 50 60Hz No loss of function or performance 0 to 1 AC cycle 100 Nominal AC Voltage ranges 50 60Hz No loss of function or performance gt 1 AC cycle gt 10 Nominal AC voltage ranges 50 60Hz Loss of function acceptable self recoverable Table 25 AC Line Surge Transient Performance Duration Surge Operating AC Voltage Line Frequency Performance Criteria Continuous 10 Nominal AC Voltages 50 60Hz No loss of function or performance 0 to AC 30 Mid point of nominal AC 50 60Hz No loss of function or performance cycle voltages 2 2 2 3 Susceptibility Requirements The power supply meets the following electrical immunity requirements when connected to a cage with an external EMI filter that meets the criteria defined in the SSI document EPS Power Supply Specification Table 26 Performance Criteria Level Description A The apparatus shall continue to operate as intended No degradation of performance B The apparatus shall continue to operate as intended No degradationof performance beyond spec limits C Temporary loss of function is allowed provided the function is self recoverable or can be restored by the operation of the controls 2 2 2 3 1 Electrostatic Discharge Susce
23. Table 130 Table 131 Table 132 Table 133 Table 134 Table 135 Table 136 Table 137 List of Tab 12V4 Power Connector PCI Express Connector Peripheral Power Connectors P7 Right angle Peripheral Power Connector ENEE P5 Floppy Power Connector P12 Right angle SATA Power Connector P13 SATA Power Connector AC Input Rating Efficiency AC Line Dropout Holdup Performance Criteria AC Line Sag Transient Performance AC Line Surge Transient Performance Load Ratings Voltage Regulation Limits Transient Load Requirements Capacitive Loading Conditions AAA Pre set Lighter Load WEE Pre set Lighter Voltage Regulation Limite Ripple and NEE Output Voltage Timing Turn On Off Timing Over current Protection OCP 240VA Over voltage Protection Limits PSON Signal Characteristic PWOK Signal Characteristics DC Bus Addressing I C Bus Loading GEM424 Controller GPIO Assignment LED Function 7 Pin SATA Connector Pin out 22 Pin SATA Connector Pin out Power Connector Pin out IPMB Header Pin out SATA Host I C Header Pin out Revision 3 1 Intel order number D37594 005 les List of Tables Intel Entry Server Chassis C5299 E TPS Table 138 SATA Hot swap Backplane Connector Specifications ceeceeeeeeeeeeeeeeeteeeeees 118 Table 139 Control Panel LED FUunCHOMS deeg ee ed 121 Table 140 IPM Header nie eiaa ESA EAEE 123 Table 141 System Office Environment Summary ssssessssnensserneerenresssrrrnt
24. Transient Performance sseseseeeeeetrrettteeerttttttttereerrtrtnnnnennnrnnnnnnnnn net 28 Table 25 AC Line Surge Transient Performance 28 Table 26 Performance Criteria neissen on Sieg 28 Table 27 AC Line Dropout HOU pics se tsscucessiveceraseteens duueadsietis lareactsaandevstacacstegdet deeg 30 Table ee 31 Table 29 Cable Lematnis EE 32 Table 30 P1 Main Power Connector sitsssass tiers veereezecs vases censcedenusas last ted enteoniiendresiu Ed EE 32 Table 31 P2 Processor Power Connechor nnanet 33 Table 32 P12 Baseboard Power Connector ssssssesssseerttrtrtttttttttttttttaeeeeertrtnnnnnnnnrnntnnn nenne 33 x Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS List of Tables Table 33 P3 P4 P6 P7 P8 P9 Peripheral Power Connechors ne 33 Table 34 P5 Floppy Power Connector eegend EE deeg edu 34 Table 35 P10 SATA Power Create e NET ENEE EEdgeeheEEdeuEEC ARENS Edge 34 Table 36 P11 SATA e ERT 34 Walble 37 Load lee E 35 Table 38 Power On Load Hannes ssc 2cccececesneidess Aender d s dasdtntsandtecndee vsceigeneraidee cide ciecadaeerclte 36 Table 39 Power On Voltage Regulation Limits ENNEN 36 Table 40 Voltage Regulation Limits sicc ie c 22 c8es g teseetenenscnanecdepeedle ctscceebanpPeensdaseedenineeereeebanteieaie 37 Table 41 Transient Load Requirement 2 ceceeeeeeecceeeeeeeeeeeeeeeeeeeeeeeeesesneeaaeseaeeeseeeeneseneeees 37 Table 42 Capacitive Loading Conditions c
25. are needed Baseboard Management Controller Cubic Feet per Minute airflow CMOS Complementary Metal Oxide Silicon complementary Metal oxide Seon operating voltage Fault Resilient Booting Latch Off A power supply after detecting a fault condition shuts itself off Even if the fault condition disappears the supply does not restart unless manual or electronic intervention occurs Manual intervention commonly includes briefly removing and then reconnecting the supply or it could be done through a switch Electronic intervention could be done by electronic signals in the Server System Liquid Crystal Display Local Control Panel Monotonically A waveform changes from one level to another in a steady fashion without intermediate retrenchment or oscillation 138 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Glossary Over current A condition in which a supply attempts to provide more output current than the amount for which it is rated This commonly occurs if there is a short circuit condition in the load attached to the supply Over Voltage Protection Power Distribution Board Power Factor Correction PWOK A typical logic level output signal provided by the supply that signals the Server System that all DC output voltages are within their specified range Ripple The periodic or random signals over frequency band of 10 Hz to 20 MHz Rise Time Rise time is defined as the time it ta
26. capacitive load ranges A minimum of 45 degrees phase margin and 10dB gain margin is required Closed loop stability is ensured at the maximum and minimum loads as applicable 2 2 4 18 Common Mode Noise The common mode noise on any output shall not exceed 350mV pk pk over the frequency band of 10Hz to 30MHz 2 2 4 19 Ripple Noise The maximum allowed ripple noise output of the power supply is defined in the following table This is measured over a bandwidth of 0 Hz to 20 MHz at the power supply output connectors A 10 F tantalum capacitor in parallel with a 0 1 F ceramic capacitor is placed at the point of measurement 38 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Table 43 Ripple and Noise 50mVp p 50mVp p 120mVp p 120mVp p 50mVp p 2 2 4 20 Soft Starting The power supply contains a control circuit that provides monotonic soft start for its outputs without overstressing the AC line or any power supply components at any specified AC line or load conditions There is no requirement for rise time on the 5Vstby but the turn on off is monotonic 2 2 4 21 Zero Load Stability Requirements When the power subsystem operates in a no load condition it does not need to meet the output regulation specification but it must operate without any tripping of over voltage or other fault circuitry When the power subsystem is subsequently loaded it must begin to regulate and source
27. current without fault Pre set Power on Requirement Table 120 Pre set Lighter Load Voltage Minimum Continuous Maximum Continuous Peak Load Load Load Revision 3 1 97 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Voltage Minimum Continuous Maximum Continuous Peak Load Load Load EC ee foe Taam eon foe ES a S Table 121 Pre set Lighter Voltage Regulation Limits Tolerance NOM MAX pa es ES es Em EC 12V4 8 10 12 00 13 20 12V 5 9 12 00 13 08 5VSB 5 5 5 00 rms 2 5 8 13 Ripple Noise The maximum allowed ripple noise output of the power supply is defined in the following table This is measured over a bandwidth of 10Hz to 20MHz at the power supply output connectors A 10 F tantalum capacitor in parallel with a 0 1 F ceramic capacitor is placed at the point of measurement Table 122 Ripple and Noise 50mVp p 50mVp p 120mVp p 120mVp p 50mVp p 98 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 5 8 14 Timing Requirements The timing requirements for power supply operation are as follows The output voltages must rise from 10 to within regulation limits Tvout rise Within 5 to 70 ms except for 5VSB which is allowed to rise from 1 0 to 25 ms The 3 3V 5V and 12V output voltages should start to rise approximately at the same time All outputs must rise monotonically Eac
28. eee en eae 73 Figure 16 Turn On Off Timing Power Supply Gonale 74 Figure 17 Mechanical Drawing of the 670 W Power Supply Encdosure 81 Figure 18 Output Harness for 670 W Power Gupphy 84 Figure 19 Output Voltage Timing DEE 99 Figure 20 Turn On Off Timing Power Supply Gonale 101 Figure 21 Cooling Fan Configuration asses ncpeecceneeeenetes ed et dE NEEN EE 106 Figure 22 Drive Bay Locations for Intel Entry Server Chassis SC5299 E DP WS BRP GCOMPIQUIFATION SNOWN EE 107 Figure 23 6 HDD Fixed Drive Bay Rear Isometric View 00 ceeeeeeeeeeeenee eter ee eeeeeaaaeeeeeeeeeeeeeaa 108 Figure 24 Intel Entry Server Chassis SC5299 E 6HDD SATA HSBP Block Diagram 110 Figure 25 Intel Entry Server Chassis SC5299 E 6HDD SATA Hot Swap Backplane 1 C Bus COMME CHOM Daga ewes eta es keen cin cet aeae a e sar neha we wake caahlade Made tage nen tu Ere EER dentin 112 Figure 26 Intel Entry Server Chassis SC5299 E 6HDD SATA Hot Swap Backplane Board e EE 118 Figure 27 Panel Controls and INGICAtOrs wicicicssadeivsscdeaes fe iecceddele detenaslankes evasion NEESS erg 120 Figure 28 SKU3 Pedestal Server Application AAA 122 VR Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS List of Figures Figure 29 Local Control Panel Components vk 122 Revision 3 1 ix Intel order number D37594 005 List of Tables Intel Entry Server Chassis C5299 E TPS List of Tables Table 1 Intel Entry Server C
29. internal components with this voltage applied to any individual output and all outputs simultaneously It also does not trip the protection circuits during turn on The residual voltage at the power supply outputs for no load condition does not exceed 100mV when AC voltage is applied 2 1 6 Protection Circuits Protection circuits inside the power supply cause only the power supply s main outputs to shutdown If the power supply latches off due to a protection circuit tripping an AC cycle OFF for 15 sec and a PSON cycle HIGH for 1sec will reset the power supply 2 1 6 1 Over Current Protection OCP The power supply has a current limit to prevent the 3 3V 5V and 12V outputs from exceeding 240VA If the current limits are exceeded the power supply will shut down and latch off The latch will be cleared by toggling the PSON signal or by an AC power interruption The power supply will not be damaged from repeated power cycling in this condition 12V and 5VSB are protected under over current or shorted conditions so that no damage can occur to the power supply An auto recovery feature exists on the 5VSB rail 2 1 6 2 Over Voltage Protection OVP The power supply over voltage protection is locally sensed The power supply will shut down and latch off after an over voltage condition occurs This latch can be cleared by toggling the PSON signal or by an AC power interruption The following table contains the over voltage Revision 3
30. low and the PSON signal with the AC input applied Table 63 Output Voltage Timing Item Description Minimum Maximum Units Trout rise Output voltage rise time from each main output 5 0 70 msec Tou on All main outputs must be within regulation of each 50 msec other within this time T vom op All main outputs must leave regulation within this 400 msec time The 5VSB output voltage rise time shall be from 1 0 ms to 25 0 ms V out 10 V out MI eegene S v2 S i V3 ge lt gt Tvout_off lt a Tvout_rise SE Tyout_on TP02313 Figure 13 Output Voltage Timing Revision 3 1 55 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 64 Turn On Off Timing Top on delen Delay from AC being applied to 5VSB being within 1500 ms regulation Tac_on_delay Delay from AC being applied to all output voltages being 2500 ms within regulation Tyout_holdup Time all output voltages stay within regulation after loss of ef m AC ewok holdup Delay from loss of AC to de assertion of PWOK o ae ms paonon delay rated from PSON active to output voltages within regulation 400 s imits pson_pwok Delay from PSON deactive to PWOK being de asserted Ia s pwok_on Delay from output voltages within regulation limits to PWOK 100 1000 ms asserted at turn on pwok_off Delay from PWOK de asserted to 12V output
31. ranges up to 670 W The power supply size is 150mm x 180mm x 86mm and has a wire harness for the DC outputs The AC plugs directly into the external face of the power supply 80 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system k 180 0 7 GI a O w D Ka L4LLLLLLIL AIRFLOW DIRECTION 9 150 047 R 03 Di R 138 0 4 46 32 UNC EXTRUDE HOLE a o a lt DI Figure 17 Mechanical Drawing of the 670 W Power Supply Enclosure Revision 3 1 81 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 5 2 Acoustic Requirements The declared sound power level of the power supply assembly does not exceed the levels specified in the following table Table 97 Sound Power Requirement Operating Conditions Inlet Temperature of Maximum Loading LwAd BA Condition Condition Maximum 45 C 100 6 5 Operating 40 C 60 4 7 Idle 35 C 40 4 0 The declared sound power level is measured according to ECMA 74 and reported according to ECMA 109 The fan RPM settings for the two operating conditions are determined through thermal analysis and or testing prior to the sound power level measurement To measure the power supply assembly sound power levels corresponding to the two operating conditions the fan in the power supply assembly is powered externally to the
32. supply Table 127 PSON Signal Characteristic Signal Type Accepts an open collector drain input from the system Pull up to VSB located in power supply PSON High or Open Logic level low power supply ON 1 0V Logic level high power supply OFF d Source current Vpson low Pe 4mA Revision 3 1 103 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 5 10 2 PWOK Power OK Output Signal PWOK is a power OK signal and is pulled HIGH by the power supply to indicate that all the outputs are within the regulation limits of the power supply When any output voltage falls below regulation limits or when AC power has been removed for a time sufficiently long so that power supply operation is no longer guaranteed PWOK will be de asserted to a LOW state The start of the PWOK delay time is inhibited as long as any power supply output is in current limit Table 128 PWOK Signal Characteristics Signal Type PWOK High PWOK Low Logic level low voltage Isink 4mA Logic level high voltage Isource 200 A Sink current PWOK low Source current PWOK high 104 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Chassis Cooling 3 Chassis Cooling 3 1 Fan Configuration The cooling sub system of the Intel Entry Server Chassis SC5299 E consists of one system fan and one power supply fan the SC5299WS configuration has an additional 92 mm driv
33. the power supply connector The 5VSB rail will auto recover after its OVP limit Table 126 Over voltage Protection Limits 3 3V Output Voltage 5V 102 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 5 9 3 Over temperature Protection OTP The power supply is protected against over temperature conditions caused by loss of fan cooling or excessive ambient temperature In an OTP condition the power supply will shut down When the power supply temperature drops to within specified limits the power supply will restore power automatically while the 5VSB remains always on The OTP circuit has a built in hysteresis such that the power supply will not oscillate on and off due to a temperature recovering condition The OTP trip level has a minimum of 4 degrees C of ambient temperature hysteresis 2 5 10 Control and Indicator Functions The following sections define the input and output signals from the power supply Signals that can be defined as low true use the following convention Signaf low true 2 5 10 1 PSON Input Signal The PSON signal is required to remotely turn on off the power supply PSON is an active low signal that turns on the 3 3V 5V 12V and 12V power rails When this signal is not pulled low by the system or left open the outputs except the 5VSB turn off This signal is pulled to a standby voltage by a pull up resistor internal to the power
34. three different load levels 100 50 and 20 Efficiency is tested over an AC input voltage range of 115VAC to 220VAC Table 111 Efficiency Loading 100 of Maximum 50 of Maximum 20 of Maximum Recommended Efficiency 68 72 65 2 5 7 5 AC Line Dropout Holdup Table 112 AC Line Dropout Holdup Output Wattage Loading Holdup time 670W 100 20 ms An AC line dropout is defined to be when the AC input drops to OVAC at any phase of the AC line for any length of time During an AC dropout the power supply meets dynamic voltage regulation requirements An AC line dropout of any duration does not cause any tripping of control signals or protection circuits If the AC dropout lasts longer than the hold up time the power recovers and meets all turn on requirements The power supply meets the AC dropout requirement over rated AC voltages and frequencies A dropout of the AC line for any duration does not cause damage to the power supply 2 5 7 5 1 AC Line 5VSB Holdup The 5VSB output voltage stays in regulation under its full load static or dynamic during an AC dropout of 70ms min 5VSB holdup time whether the power supply is in the ON or OFF state PSON asserted or de asserted 90 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 5 7 6 AC Line Fuse The power supply has one line fused in the single line fuse on the line Hot wire of
35. to the chassis behind the PCI card guide and provide additional cooling to the PCI card area two 80 mm fans can be mounted at the front of the chassis to the right of the hard drive bay opening to provide more cooling The front panel of the Intel Entry Server Chassis SC5299 E provides a LM30 temperature sensor for SIO control Server boards that support SIO control may use the LM30 sensor to adjust fan speeds according to air intake temperatures Refer to the server board documentation for configuring use of the front panel sensor 3 2 Server Board Fan Control The fans provided in the Intel Entry Server Chassis SC5299 E contain a tachometer signal that can be monitored by the server management subsystem for the Intel Server Boards S5000XVN and S5000VSA See the specific server board Technical Product Specification for details on how this feature works Revision 3 1 105 Intel order number D37594 005 Chassis Cooling Intel Entry Server Chassis SC5299 E TPS 3 3 Cooling Solution Air should flow through the system from front to back as indicated by the arrows in the following figure y ae I COGGs GGG 500006 IR AU eelerer ere S DOZ GG d E ODOOO OOODOO E ae TP00869 Figure 21 Cooling Fan Configuration The Intel Entry Server Chassis SC5299 E is engineered to provide sufficient cooling for all
36. two RPM settings The 45 degree C inlet temperature is derived based on standard system ambient temperature assumptions 25 degrees C and 35 degrees C typical temperature rise within the system and thermal impact of fan speed control Pure Tones The power supply assembly does not produce any prominent discrete tones determined according to ECMA 74 Annex D 2 5 3 Airflow Requirements The power supply incorporates one 80 mm fan for self cooling and system cooling The fan provides no less than 14 CFM airflow through the power supply when installed in the system The cooling air enters the power module from the non AC side 2 5 4 Temperature Requirements The power supply operates within all specified limits over the Top temperature range All airflow passes through the power supply and not over the exterior surfaces of the power supply Table 98 Thermal Requirements Item Description MIN MAX Units Top Operating temperature range 0 45 C Thon op Non operating temperature range 40 70 C Altitude Maximum operating altitude 1500 m 82 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system The power supply meets UL enclosure requirements for temperature rise limits All sides of the power supply with exception of the air exhaust side are classified as Handle knobs grips etc held for short periods of time only 2 5 5 Output Wire Harnes
37. voltage 1 ms dropping out of regulation limits pwok_low Duration of PWOK being in the de asserted state during an 100 m off on cycle using AC or the PSON signal Delay from 5VSB being in regulation to O Ps being in ms i 50 1000 regulation at AC turn on T5VSB_holdup Time the 5VSB output voltage stays within regulation after 70 ms loss of AC Note TI Tout holdup ANd Tesch holdup are defined under 60 loading 2 3 3 14 Hot Swap Requirement Hot swapping a power supply is the process of inserting and extracting a power supply from an operating power system During this process the output voltages remain within the capacitive load limits Up to two power supplies can be on a single AC line The power supply hot swaps by the following method Extraction The AC power disconnects from the power supply as the power supply is extracted from the system This can occur in standby mode or power on mode Insertion The AC power connects to the power supply as the power supply is inserted into the system The power supply powers on into either standby mode or power on Mode In general a failed off by internal latch or external control power supply may be removed then replaced with a good power supply however hot swap will work with both operational as well as failed power supplies The newly inserted power supply will get turned on into standby or Power On mode once inserted 56 Revision 3 1 Intel order number D37594 005
38. 05 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 1 5 3 Remote Sense The power supply has remote sense return ReturnS to regulate out ground drops for all output voltages 3 3V 5V 12V1 12V2 12V and 5VSB The power supply uses remote sense 3 3VS to regulate out drops in the system for the 3 3V output The 5V 12V1 12V2 12V and 5VSB outputs only use remote sense referenced to the ReturnS signal The remote sense input impedance to the power supply is greater than 200 on 3 3VS 5VS This is the value of the resistor connecting the remote sense to the output voltage internal to the power supply Remote sense is able to regulate out a minimum of 200mV drop on the 3 3V output The remote sense return ReturnS is able to regulate out a minimum of 200mV drop in the power ground return The current in any remote sense line is less than 5mA to prevent voltage sensing errors The power supply operates within specification over the full range of voltage drops from the power supply s output connector to the remote sense points 2 1 5 4 Power Module Output Power Currents The following table defines power and current ratings for the 420 W power supply The combined output power of all outputs does not exceed the rated output power The power supply meets both static and dynamic voltage regulation requirements for the minimum loading conditions Table 11 Load Ratings Output Load Range Regulation Ripple and Noise Max
39. 1 21 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS limits The values are measured at the output of the power supply s connectors The voltage never exceeds the maximum levels when measured at the power pins of the power supply connector during any single point of fail The voltage will not trip any lower than the minimum levels when measured at the power pins of the power supply connector Exception 5VSB rail will recover after its over voltage condition occurs Table 18 Over Voltage Protection Limits 3 3V Output Voltage 5V 12V1 2 12V 2 1 6 3 Over Temperature Protection OTP The power supply is protected against over temperature conditions caused by loss of fan cooling or excessive ambient temperature In an OTP condition the PSU will shut down When the power supply temperature drops to within specified limits the power supply will restore power automatically while the 5VSB always remains on The OTP circuit has a built in hysteresis such that the power supply will not oscillate on and off due to a temperature recovering condition The OTP trip level has a minimum of 4 C of ambient temperature hysteresis 2 1 6 4 PSON Input Signal The PSON signal is required to remotely turn on off the power supply PSON is an active low signal that turns on the 3 3V 5V 12V and 12V power rails When this signal is not pulled low by the system or left open the outputs e
40. 1000 3 2 Electromagnetic Compatibility EMC Part 3 Limits Section 2 Limits for harmonic current emissions and meets the harmonic current emissions limits specified for ITE equipment The power supply is tested as described in JEIDA MITI Guideline for Suppression of High Harmonics in Appliances and General Use Equipment and meets the harmonic current emissions limits specified for ITE equipment 8 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis C5299 E TPS Power Sub system 2 1 1 Mechanical Overview 2 136 8 x SC a SE M T SEE AUX VIEW Y ji z Kan Gi z H EK E fi 7 d c SEE DETAIL 0 13 0 FULL R 32 6 d z L 14 8 n s as RO 76 4 5 he 145 6 Ka EE AUX VIEW Y 25 Bi DETAIL D 3x j A A af wo N t e SEE AUX VIEW X a SPEC LABEL CH t PROCESS LABEL F D Se 98 26 0 98 0 EI 450 0 kl 203 0 3 6 0 2X 44 138 0 l WT Fa XIRU HOLE Eaa 7 p Ai ae mer B B eer Ze 3 q s a Q 2 fey Ki o g gt EA 48 g zl a N at a to 03 S v U x 114 0 AUX VIEW X Figure 6 Mechanical Drawing for Power Supply Enclosure Revision 3 1 9 Intel order number D37594 005 Power Sub sys
41. 3 12V4 Power Connector 2 4 2 6 Power Signal Connector P12 Connector housing 5 Pin Molex 50 57 9405 or equivalent Contacts Molex 16 02 0087 or equivalent Table 78 Power Signal Connector SMBAlert TBD Revision 3 1 67 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 4 2 7 Peripheral Power Connectors P3 P4 P6 P7 P8 P9 Connector housing Amp 1 480424 0 or equivalent Contact Amp 61314 1 contact or equivalent Table 79 Peripheral Power Connectors Pin Signal 18 AWG Color 1 12V4 Green 2 COM Black 3 COM Black 4 5 VDC Red 2 4 2 8 Floppy Power Connector P5 Connector housing Amp 171822 4 or equivalent Contact Amp 170204 1 contact or equivalent Table 80 Floppy Power Connector Pin Signal 22 AWG Color 1 5VDC Red 2 COM Black 3 COM Black 4 12V4 Green 2 4 2 9 12V4 Power Connector P6 Connector housing 4 Pin Molex 39 01 2040 or equivalent Contact Molex Mini Fit Jr HCS 44476 1111 or equivalent Table 81 12V4 Power Connector Signal 18 AWG Color C econ ia 2 4 2 10 Right angle SATA Power Connectors P10 P11 Connector housing JWT F6002HSO 5P 18 or equivalent 68 Intel order number D37594 005 Revision 3 1 Intel Entry Server Chassis SC5299 E TPS Power Sub system Table 82 SATA Power Connector Pin Signal 18 AWG Color 1 3 3V Orange 2
42. 60Hz Loss of function acceptable self recoverable Table 10 AC Line Surge Transient Performance Duration Surge Operating AC Voltage Line Frequency Performance Criteria Continuous 10 Nominal AC Voltages 50 60Hz No loss of function or performance 0 to AC 30 Mid point of nominal AC 50 60Hz No loss of function or performance cycle Voltages 2 1 4 8 AC Line Fast Transient EFT Specification The power supply meets the EN 61000 4 5 directive and any additional requirements in IEC 1000 4 5 1995 and the Level 3 requirements for surge withstand capability with the following conditions and exception These input transients do not cause any out of regulation conditions such as overshoot and undershoot nor do they cause any nuisance trips of any of the power supply protection circuits The power supply meets surge withstand test conditions under maximum and minimum DC output load conditions 2 1 4 9 AC Line Leakage Current The maximum leakage current to ground for each power supply is 3 5mA when tested at 240VAC 2 1 5 DC Output Specifications 2 1 5 1 Grounding The ground of the pins of the power supply output connector provides the power return path The output connector ground pins are connected to safety ground power supply enclosure 2 1 5 2 Standby Output The 5VSB output is present when an AC input greater than the power supply turn on voltage is applied 16 Revision 3 1 Intel order number D37594 0
43. 650WPSU 650 W module for BRP upgrade to redundant or replacement FPP4PMkKIT Preventative maintenance kit Plastic slide from fixed drive bay 2 CPU duct 2 separate parts Intrusion switch assembly USB cable Front panel LED and switch cables no PBA Front panel cable for FP PBA Front panel board PS adapter plate for fixed power supply Power supply tool less lock Chassis feet 120 mm fan 3 wire thermistor type 120 mm Fan 4 wire type 92 mm Fan 4 wire type FPP4FANKIT4W Replacement 120 mm and 92 mm 4 wire fans APP3HSDBKIT Hot swap bay mounting bracket kit includes 2 brackets one fan shroud and one 92 mm fan APP3STDBEZEL Standard bezel WS DP BRP FXXPP4FPBRD Replacement front panel board AXX6SASDB 6 Drive SAS SATA hot swap cage AXX6SCSIDB 6 Drive SCSI how swap cage Revision 3 1 125 Intel order number D37594 005 Supported Intel Server Boards Intel Entry Server Chassis C5299 E TPS H Supported Intel Server Boards The Intel Entry Server Chassis SC5299 E is mechanically and functionally designed to support the following Intel server boards Intel Server Board S5000XVN Intel Server Board S5000VSA Intel Server Board S5000PSL Intel Server Board S5000XSL Intel Server Board S3000AH Intel Server Board S8200SHV S3210SHLC and 3210SHLX e Intel Server Board S3430GPV S3420GPLC and S3420GPLX 126 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TP
44. Black 8 PWR OK Reserved N C 9 5VSB 5 VDC Red Vo Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Pin Signal 18 AWG Color Pin Signal 18 AWG Color 10 White Blue Stripe 5 VDC Red 11 White Blue Stripe 5 VDC Red 12 3 3 VDC Orange 24 COM Black Note 3 3V Locate Sense Double Crimped into pin 13 with 22 AWG Orange White stripe wire 2 1 3 2 P2 Processor Power Connector Connector housing 8 Pin Molex 39 01 2085 or equivalent Contact Molex 44476 1111 or equivalent Table 5 P2 Processor Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 1 COM Yellow 2 COM Yellow 3 COM Yellow 4 COM Yellow 2 1 3 3 P3 P9 Peripheral Connectors Connector housing AMP VO P N is 770827 1 or equivalent Contact AMP 61314 1 contact or equivalent Table 6 P3 P6 P8 P9 Peripheral Connectors Pin Signal 18 AWG Color 1 12 V2 Blue White 2 COM Black 3 COM Black 4 5 VDC Red 2 1 3 4 P10 Right angle P11 SATA Power Connectors Connector Housing Contact Revision 3 1 13 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 7 P10 Right angle SATA Power Connector SES Ser 2 1 4 AC Input Requirements The power supply operates within all specified limits over the following input voltage range shown in the following table Harmonic distortion of up to 10 THD must not cause the powe
45. C dropout requirement over rated AC voltages and frequencies A dropout of the AC line for any duration will not cause damage to the power supply Revision 3 1 49 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 3 2 8 1 AC Line 5VSB Holdup The 5VSB output voltage stays in regulation under its full load static or dynamic during an AC dropout of 70ms min 5VSB holdup time whether the power supply is in an ON or OFF state PSON asserted or de asserted 2 3 2 9 AC Line Fast Transient EFT Specification The power supply meets the EN61000 4 5 directive and any additional requirements in IEC1000 4 5 1995 and the Level 3 requirements for surge withstand capability with the following conditions and exceptions These input transients do not cause any out of regulation conditions such as overshoot and undershoot nor do they cause any nuisance trips of any of the power supply protection circuits The surge withstand test must not produce damage to the power supply The supply meets surge withstand conditions under maximum and minimum DC output load conditions 2 3 2 10 Power Recovery The power supply recovers automatically after an AC power failure AC power failure is defined to be any loss of AC power that exceeds the dropout criteria 2 3 2 10 1 Voltage Brownout The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 11 1995 test standard and p
46. COM Black 3 5VDC Red 4 COM Black 5 12V4 Green 2 4 2 11 Remote Sense The cage 12V to 3 3V and 5V converters use remote sensing to regulate out voltage drops in the system for the 3 3V output The remote sense output impedance to this DC DC converter must be greater than 200 This is the value of the resistor connecting the remote sense to the output voltage internal to the DC DC converter Remote sense must be able to regulate out of up to 300mV drop on the 3 3V and 5V outputs Also the power supply ground return remote sense ReturnS passes through the PDB and the output harness to regulate out ground drops for its 12V and 5Vsb output voltages The power supply uses remote sense 12VRS to regulate out drops up to the 240VA protection circuits on the PDB 2 4 2 12 12V Outputs Load Requirements This section describes the 12V output power requirements from the cage with one or two 650 W power supplies plugged into the input of the cage The power distribution board divides up the 12V power from power supply modules into five separate 240VA limited channels Channels 1 through 4 supply 12V power directly to the end system The fifth channel supplies power to the 3 3V and 5V converters The 5 12V doesn t need to meet the 240VA requirement Table 83 12V Outputs Load Ratings 2V1 2 3 4 5 combined output limit 54A 58A pk max MA 12V2 12V3 12V4 12V5 MAX Load 16A 16A 16A 16A 18A MIN Static Dynamic Load 0 0 OA OA
47. Combined 3 3V and 5V power should not exceed 160 W 2 2 4 10 Power On Loading The power supply operates at lighter load conditions when the system first powers on Under these conditions the voltage regulation limits are relaxed Power on loading and voltage regulation requirements are defined in the following tables Time duration is 1 second during power on Revision 3 1 35 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 38 Power On Load Ratings Voltage Minimum Continuous Maximum Continuous Peak 3 3 V OA 9A 5 V OA 7A 12 V1 OA 16A 12 V2 0 1A 5A 12V OA 0 5A 5 VSB 0 1A 3 0A 3 5A Table 39 Power On Voltage Regulation Limits Com EECHER 2 2 4 11 Grounding The ground of the pins of the power supply output connector provides the power return path The output connector ground pins are connected to safety ground power supply enclosure This grounding is well designed to ensure passing the maximum allowed Common Mode Noise levels The power supply must be provided with a reliable protective earth ground All secondary circuits are connected to protective earth ground Resistance of the ground returns to chassis does not exceed 1 0m This path may be used to carry DC current 2 2 4 12 Remote Sense The power supply has remote sense return ReturnS to regulate out ground drops for all output voltages 3 3V 5V 12V1 12V2 12V
48. F GEM424 SDA0 SCLO allot J13 P5V 0 7VCC 0 3VCC 0 4V 3mA 10uA 4 8P SDAO0 SCLO GEM424 P5V 0 7VCC 0 3VCC 0 4V 3mA 10uA 4PF GEM424 SDA1 SCL1 allot JP1 P5V 0 7VCC 0 3VCC 0 4V 3mA 10uA 4 8P SDA1 SCL1 GEM424 P5V 0 7VCC 0 3VCC 0 4V 3mA 10uA 4PF GEM424 SDA2 SCL2 allot PCA9554 P5V 0 7VCC 0 3VCC 0 4 38mA 10uA 10PF 40h SDA2 SCL2 112 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Peripheral and Hard Drive Support Device Power Well VI VI VoL lleak CAP VC Address IC Bus Name AT24C512 P5V 0 7VCC 0 3VCC 0 4V 2 1mMA 3uA 8PF A2h SDA2 SCL2 AT24C128 P5V 0 7VCC 0 3VCC 0 4V 2 1mMA 3uA 8PF AOh SDA2 SCL2 AT24C02 P5V 0 7VCC 0 3VCC 0 4V 2 1mMA 3uA DPE A6h SDA2 SCL2 JP2 P5V 0 7VCC 0 3VCC 0 4V 3mA 10uA 4 8P SDA2 SCL2 4 3 2 3 2 Temperature Sensor The 6HDD SATA HSBP provides a National LM75 or equivalent temperature sensor The host can query the LM75 at any time to read the temperature The temperature sensor has an IC address of 0x90h on Port 0 of the GEM424 controller 4 3 2 3 3 Serial EEPROM The 6HDD SATA HSBP provides an Atmel 24C02 or equivalent serial EEPROM for storing the FRU information The 24C02 EEPROM provides 2048 bits of serial electrically erasable and programmable read only memory The serial EEPROM has an IC address of OxA6h and resides on Port 1 of the GEM424 controller 4 3 2 4 General
49. Intel Entry Server Chassis SC5299 Technical Product Specification Intel order number D37594 005 Revision 3 1 May 2010 Enterprise Platforms and Services Marketing Revision History Intel Entry Server Chassis SC5299 E TPS Revision History Date Revision Modifications Number April 2006 Initial release December 2006 Changed Country to Region in Section 9 1 5 ii Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Disclaimers Disclaimers Information in this document is provided in connection with Intel products No license express or implied by estoppel or otherwise to any intellectual property rights is granted by this document Except as provided in Intel s Terms and Conditions of Sale for such products Intel assumes no liability whatsoever and Intel disclaims any express or implied warranty relating to sale and or use of Intel products including liability or warranties relating to fitness for a particular purpose merchantability or infringement of any patent copyright or other intellectual property right Intel products are not intended for use in medical life saving or life sustaining applications Intel may make changes to specifications and product descriptions at any time without notice Designers must not rely on the absence or characteristics of any features or instructions marked reserved or undefined Intel reserves these for future definition and
50. Loading Conditions ENEE 71 Table 88 Ripple and Notse AA 72 Table 89 Output Voltage Timing EEN 72 Table 90 T r OmMOff TIMING eers cecedeedt lets heads eege Eden riede ege ge gege GE 73 Table 91 Over current Protection Limits 240VA Protection ccccceeeesseeeeeeeeeeeeeeeeeeeeeeeeenaeeees 75 Table 92 Over voltage Protection OVP Limite 76 Table 93 PSON Eelere eerste ee 77 Table 94 PWOK Signal Characteristics EE 78 Table 95 SMBAlert Signal Characteristics cccccccccccceeeeeeeesenneeeeeeeeeeeeseessneeeeeeeeeeeessesnaaaes 78 Table 96 Device Address Locations ccceeeeeeeeeeeeeeeeeeee eee cece ee eeeeeeeeseeeseeeseeeseeeeeeeeeeeeeseeenees 79 Table 97 Sound Power REquireMent siccniccicseckcncisdsctencs EEN EEENE EES EENS ere 82 Table 98 Thermal Requirements E 82 Table99 Cable ue EE 83 Table 100 P1 Baseboard Power Connector sssssssersrssesneessrrrrsstrrnrertrnntsstrrnnetrnnnrernennseren nnet 85 Table 101 P2 Processor Power Connechor rnane nnt 86 Table 102 Power Signal Connector EE 86 xii Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Table 103 Table 104 Table 105 Table 106 Table 107 Table 108 Table 109 Table 110 Table 111 Table 112 Table 113 Table 114 Table 115 Table 116 Table 117 Table 118 Table 119 Table 120 Table 121 Table 122 Table 123 Table 124 Table 125 Table 126 Table 127 Table 128 Table 129
51. ON CIRCUITS e ee 41 2 2 6 Control and Indicator e Tue de IC 43 2 3 650 W Power Supply MOGU es ccs cisasntacalaatiinieonntlanvcnctmndieunds wationntavannealuniddeatemanudee cs 45 2 3 1 Mechanical e 45 2 3 2 AC Input REGUIRGMIGI TS ices EEN 46 2 3 3 DC Output Specification eege ee ihe Ak Seege 51 2 3 4 Breed 57 2 3 5 Control and Indicator Tue e 58 iv Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Table of Contents 2 3 6 SMBUS MOMITORING MGR Ce 61 2 4 650 W Power Distribution Board PDB sessseessnessneeeersenrsreneernnsrrnnsrrnnsrnnrrrnnrnee 62 2 4 1 Mechanical Overview ee ee EE E Aen 63 2 4 2 DC Output Specification EE 64 2 4 3 DC DC Converters Dynamic LEE ee eege 70 2 4 4 Protection Circ itS srona a ee R E E 75 2 4 5 Control and Indicator Functions Hard wired 76 2 4 6 PSMI Power Supply Monitoring Jntertacel ne 79 2 5 670 W Te Tee E 80 2 5 1 Mechanical Overview EE 80 2 5 2 Acoustic REQUIFEMENTS 2cscetetaciees senate ee 82 2 5 3 ee Ten EC 82 2 5 4 Temperature Fee 82 2 5 5 Output Wire Harness Drang ess esate to aie Recents eee he 83 2 5 6 AONE Te 85 2 5 7 AC Input Req irementS ee 89 2 5 8 DC Q tp tSpecificatioNS s a a a Oe aeaii 94 2 5 9 EECHER 101 2 5 10 Control and Indicator FUNCTIONS fc 452s nsndpeinees ech Reged 103 3 Chassis Cooling eegene ec lan alesis ine ne Add E Eaa 105 3 1 Fal COMMOMMMATION EE 105 3 2 Server Board FaN uge DE 105 3 3 Cooling SONIC OM EE 106 4 P
52. Purpose Input Output GPIO The GEM424 controller supports GPIO pins that are customizable The following table lists the GPIO pins with their assigned functions Table 131 GEM424 Controller GPIO Assignment GEM424 PIN I O Power Programming Description System Function Reset Initial Connection NAME Type Well State Value GPIOO O 3 3V HDDO Active LED HDO_ACT_LED Pull up 4 7K to 5V GPIO1 O 3 3V HDD1 Active LED HD1_ACT_LED Pull up 4 7K to 5V GPIO2 O 3 3V HDD2 Active LED HD2_ACT_LED Pull up 4 7K to 5V GPIO3 O 3 3V HDD3 Active LED HD3_ACT_LED Pull up 4 7K to 5V GPIO4 O 3 3V HDD4 Active LED HD4_ACT_LED Pull up 4 7K to 5V GPIO5 O 3 3V HDD5 Active LED HD5_ACT_LED Pull up 4 7K to 5V GPIO6 O 3 3V SATA HDDO Status LED HDO_FLT_LED_L Pull up 4 7K to 5V GPIO7 O 3 3V SATA HDD1 Status LED HD1_FLT_LED_L Pull up 4 7K to 5V GPIO8 O 3 3V SATA HDD2 Status LED HD2_FLT_LED_L Pull up 4 7K to 5V GPIO9 O 3 3V SATA HDD3 Status LED HD3_FLT_LED_L Pull up 4 7K to 5V Revision 3 1 113 Intel order number D37594 005 Peripheral and Hard Drive Support Intel Entry Server Chassis SC5299 E TPS GEM424 PIN I O Power Programming Description System Function Reset Initial Connection NAME Type Well State Value GPIO10 O 3 3V SATA HDD4 Status LED HD4_FLT_LED_L Pull up 4 7K to 5V GPIO11 O 3 3V SATA HDD5 Status LED HD5_FLT_LED_L Pull up
53. S Regulatory Environmentals and Specifications 9 Regulatory Environmentals and Specifications 9 1 Product Regulatory Compliance A WARNING To ensure regulatory compliance you must adhere to the assembly instructions included with this chassis to ensure and maintain compliance with existing product certifications and approvals Use only the described regulated components specified in this specification Use of other products components will void the UL listing and other regulatory approvals of the product and will most likely result in noncompliance with product regulations in the region s in which the product is sold The final configuration of your end system product may require additional EMC compliance testing For more information please contact your local Intel Representative This is an FCC Class A device Integration of it into a Class B chassis does not result in a Class B device This server chassis product when correctly integrated complies with the following safety and electromagnetic compatibility EMC regulations 9 1 1 Product Safety Compliance The Intel Entry Server Chassis SC5299 E complies with the following safety requirements UL60950 CSA 60950 USA Canada EN60950 Europe e IEC60950 International CB Certificate amp Report IEC60950 report to include all country national deviations GS License Germany GOST R 50377 92 License Russia Belarus Licence Belarus Ukraine Licen
54. SC5299 E TPS Intel Local Control Panel 6 1 Internal Control Panel Headers The control panel interface board has one internal header A 4 pin header provides control and status information to from the server board via the IPMB interface A 4 pin round cable connects the iLCP to the server board The following table provides the pin out for each of these headers Table 140 IPMI Header Pin Description 1 IPMB_5VSB_SDA 2 GND 3 IPMB_5VSB_SCL 4 P5V_STBY Revision 21 43 Intel order number D37594 005 System Interconnection Intel Entry Server Chassis SC5299 E TPS 7 System Interconnection 7 1 Signal Definitions The pin outs for the connectors referred to in this section are defined in the respective server board Technical Product Specification 7 2 Chassis Internal Cables 7 2 1 Control Panel Cable A 24 conductor ribbon cable with 24 pin IDC connectors links the control panel to the SSI EEB Revision 3 61 compliant server board 7 2 2 USB Cable An 8 conductor USB cable with a 10 pin server board connector and two 4 pin external USB connectors is used to connect the front mounted USB connectors to the server board 7 2 3 Fan Connector The installed system fan provides a 4 pin connector that is designed to mate with a SSI ATX 3 and 4 pin compatible fan header 7 2 4 Chassis Intrusion Cable A 2 conductor chassis intrusion cable is included with the chassis kit It is connected to the c
55. Tsysp_holdup i i k AC turn on off cycle _ j lt PSON turn on off cycle Figure 12 Turn On Off Timing Power Supply Signals 2 2 4 23 Residual Voltage Immunity in Standby Mode The power supply is immune to any residual voltage placed on its outputs typically a leakage voltage through the system from standby output up to 500mV There is neither additional heat generated nor stress of any internal components with this voltage applied to any individual output and all outputs simultaneously It also does not trip the protection circuits during turn on The residual voltage at the power supply outputs for no load condition does not exceed 100mV when AC voltage is applied 2 2 5 Protection Circuits Protection circuits inside the power supply cause only the power supply s main outputs to shutdown If the power supply latches off due to a protection circuit tripping an AC cycle OFF for 15sec and a PSON cycle HIGH for 1 sec will reset the power supply Revision 3 1 41 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 2 5 1 Over current Protection OCP The power supply has a current limit to prevent the 3 3V 5V and 12V outputs from exceeding the values shown in the following table If the current limits are exceeded the power supply will shut down and latch off The latch will be cleared by toggling the PSON signal or by an AC power interruption The power supply will
56. a Continuous 10 Nominal AC Voltages 50 60Hz No loss of function or performance 0 to AC 30 Mid point of nominal AC 50 60Hz No loss of function or performance cycle Voltages 2 5 7 11 AC Line Fast Transient EFT Specification The power supply meets the EN61000 4 5 directive and any additional requirements in IEC 1000 4 5 1995 and the Level 3 requirements for surge withstand capability with the following conditions and exceptions These input transients do not cause any out of regulation conditions such as overshoot and undershoot nor do they cause any nuisance trips of any of the power supply protection circuits The surge withstand test must not produce damage to the power supply The supply meets surge withstand conditions under maximum and minimum DC output load conditions Revision 3 1 93 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 5 7 12 Power Recovery The power supply recovers automatically after an AC power failure AC power failure is defined to be any loss of AC power that exceeds the dropout criteria 2 5 7 12 1 Voltage Brown Out The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 11 1995 test standard and performance criteria C defined in Annex B of CISPR 24 In addition the power supply meets the following Intel Requirement o A continuous input voltage below the nominal input range shall not damage the power supply
57. a slow blow type AC inrush current does not cause the AC line fuse to blow under any conditions All protection circuits in the power supply do not cause the AC fuse to blow unless a component in the power supply has failed This includes DC output load short conditions 2 2 2 11 Power Factor Correction The power supply incorporates a Power Factor Correction circuit The power supply is tested as described in EN 61000 3 2 Electromagnetic Compatibility EMC Part 3 Limits Section 2 Limits for harmonic current emissions and meets the harmonic current emissions limits specified for ITE equipment The power supply is tested as described in JEIDA MITI Guideline for Suppression of High Harmonics in Appliances and General Use Equipment and meets the harmonic current emissions limits specified for ITE equipment 2 2 3 Efficiency The following table provides the required minimum efficiency level at various loading conditions These are provided at three different load levels 100 50 and 20 Efficiency is tested over an AC input voltage range of 115VAC to 220VAC Table 28 Efficiency Loading 100 of Maximum 50 of Maximum 20 of Maximum Recommended Efficiency 70 72 65 2 2 4 DC Output Specifications 2 2 4 1 Output Connectors Listed or recognized component appliance wiring material AVLV2 CN rated minimum 105 degrees C 300VDC is used for all output wiring Revision 3 1 31 Intel order number D37594 005
58. able If the current limits are exceeded the power supply will shut down and latch off The latch will be cleared by toggling the PSON signal or by an AC power interruption The power supply will not be damaged from repeated power cycling in this condition 12V and 5VSB are protected under over current or shorted conditions so that no damage can occur to the power supply The 5VSB will auto recover after removing the OCP limit Table 125 Over current Protection OCP 240VA Over current Limit Peak Load Voltage Revision 3 1 101 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis S C5299 E TPS Voltage Peak Limit Delay 1 The delay means that the 12V3 12V4 OCP circuits will allow the peak load of 24A 25A for 0 5 sec minimum before it will shut down the power supply respectively 2 5 9 2 Over voltage Protection OVP The power supply over voltage protection is locally sensed The power supply will shut down and latch off after an over voltage condition occurs This latch can be cleared by toggling the PSON signal or by an AC power interruption The following table contains the over voltage limits The values are measured at the output of the power supply s pins The voltage never exceeds the maximum levels when measured at the power pins of the power supply connector during any single point of fail The voltage will not trip any lower than the minimum levels when measured at the power pins of
59. ane board Remove and replace control panel board Remove and replace server board 9 10 Calculated MTBF The calculated MTBF Mean Time Between Failures for the Intel Entry Server Chassis SC5299 E as configured from the factory is presented in the following tables Revision 3 1 135 Intel order number D37594 005 Regulatory Environmentals and Specifications Intel Entry Server Chassis SC5299 E TPS Table 144 Intel Entry Server Chassis SC5299 E Component MTBF Server Model Subassembly DP WS DP WS Server in 35 degrees C ambient Standard Configuration With HSBP air FIT FIT MTBF flrs 1049 MTBF flrs 1049 hours hrs hours hrs Power Supply 100 000 10 000 100 000 10 000 Power Supply non redundant with power distribution board Cooling fan 500 000 2 000 500 000 2 000 Hot swap Backplane 1 500 000 667 Front Panel Board 7 000 000 143 7 000 000 143 Intrusion Switch 25 000 000 40 25 000 000 40 Total Chassis Assembly 82100 12 183 77900 12 850 Server Model Subassembly BRP BRP Standard Configuration With HSBP Server in 35 degrees C ambient SH FIT FIT MTBF flrs 10 9 MTBF flrs 1049 hours hrs hours hrs Power Supply Power Supply non redundant with power distribution board 90 000 11 111 90 000 11 111 Cooling fan 500 000 2 000 500 000 2 000 Hot swap Backplane 1 500 000 667 Front Panel Board 7 000 000 143 7 000 000 143
60. assert 2 3 6 SMBus Monitoring Interface The power supply and cage combination provides a monitoring interface to the system over a server management bus The device in the power supply is compatible with SMBus 2 0 high power specification for DC Vaa based power and drive for Vag 3 3 V This bus operates at 3 3V but will tolerate 5V signaling One pin is used for the Serial Clock SCL PSM Clock The second pin is used for Serial Data SDA PSM Data Both pins are bi directional open drain signals and are used to form a serial bus For redundant power supplies the device s in the power supply are located at an address s determined by address pins AO and A1 The circuits inside the power supply derive their power from the standby output For redundant power supplies the device s are powered from the system side of the or ing device Revision 3 1 61 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 3 6 1 Device Address Locations The power supply plus power distribution board PS PDB device address locations are shown in the following table There are two signals to set the address location of the power supply once it is installed into the system AO and A1 Table 71 SMBus Device Addressing Reserved for future 2 2 configuration addressing PDB addressing AO A1 0 0 0 1 1 0 1 1 Power supply FRU device AOh A2h A4h A6h 2 4 650 W Power Distrib
61. assis View of Intel Entry Server Chassis SC5299 E 4 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis C5299 E TPS Product Overview AF000447 Figure 3 Front Internal Chassis View of Intel Entry Server Chassis SC5299 E DP WS BRP configuration shown TP00868 Figure 4 Rear Internal Chassis View of Intel Entry Server Chassis SC5299 E with Optional Hot swap Drive Bay Revision 3 1 5 Intel order number D37594 005 Product Overview Intel Entry Server Chassis C5299 E TPS 1 3 System Color The Intel Entry Server Chassis SC5299 E is offered in one color Black GE701 1 4 Chassis Security A variety of chassis security options are provided at the system level A removable padlock loop at the rear of the system access cover can be used to prevent access to the microprocessors memory and add in cards A variety of lock sizes can be accommodated by the 0 270 inch diameter loop A two position key lock switch will unlock the front bezel for DP WS and BRP configurations A chassis intrusion switch is provided allowing server management software to detect unauthorized access to the system side cover Note See the technical product specification appropriate to the server board for a description of BIOS and management secur
62. ation after loss of AC Note Ta holdup ANA Tpwok holdup are defined under 60 loading AC Input sl Tyout_holdup Tac_on_delay i i i Tpwok low l i lt Tpwok_off Tpson_pwok Tech om Tpwok_on TA Ain E gt K Tpwokott we TA on detay PWOK Tpwok_holdup i i z S H i i i H i i l i Tpson_on_delay i i i i i i i Tsv_vout l l Tsvsp_holdup i PSON i D AC turn on off cycle gt es PSON turn on off cycle Figure 16 Turn On Off Timing Power Supply Signals 2 4 3 7 Residual Voltage Immunity in Standby Mode Each DC DC converter is immune to any residual voltage placed on its respective output typically a leakage voltage through the system from standby output up to 500mV There is no additional heat generated nor is there any stress of any internal components with this voltage applied to any individual output or all outputs simultaneously It also does not trip the power supply protection circuits during turn on 74 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Residual voltage at the power supply outputs for no load condition do not exceed 100mV when AC voltage is applied and the PSON signal is de asserted 2 4 3 8 Soft Start Requirements The power supply contains a control circuit which provides monotonic soft
63. ber D37594 005 Intel Entry Server Chassis S C5299 E TPS Peripheral and Hard Drive Support 4 3 2 9 Clock Generation and Distribution The 6HDD SATA HSBP provides one clock source A 20 MHz oscillator provides the clock to the GEM424 controller 4 3 2 10 IPMB Header IPMB The following table defines the pin out of the 4 pin IPMB Header J13 Table 136 IPMB Header Pin out Pin Signal Name Description 1 DC Address IPMI interface address selection Control Primary O0xCO Secondary 0xC2 2 BP_l2C_SCL Clock 3 GND A BP_l2C_SDA Data 4 3 2 11 SATA Host EC Header I2C_1 The following table defines the pin out of the 3 pin SATA Host IC Header JP1 Table 137 SATA Host UC Header Pin out Pin Signal Name Description 1 BP_I2C_SDA Data 2 GND 3 BP_l2C_SCL Clock 4 3 2 12 Board Layout The following figure shows the board layout and connector placement of the SATA hot swap backplane Note Secondary side is mirrored Revision 3 1 117 Intel order number D37594 005 Peripheral and Hard Drive Support Intel Entry Server Chassis SC5299 E TPS PSH DAGTBITB4AL Aey A Cc DRIVE 4 DRIVE 5 a D H o0 nO GE g Figure 26 Intel Entry Server Chassis SC5299 E 6HDD SATA Hot Swap Backplane Board Layout 4 3 2 13 Connector Specifications Table 138 SATA Hot swap Backplane Connector Specifications Qty Manufacturer and Part
64. c2ccwshaceitn A aa EA AE 38 Table 43 Ripple and Notse AAA 39 Table 44 Output Voltage Timing EE 39 Table 45 T r OmOff TIMING EE 40 Table 46 Over current Protechon AEN 42 Table 47 Over voltage Protection Limits iicecscececssheccediaecteves et tenteeed Ge deeeeeasee seston etieaaeete 42 Table 48 PSON Eed 43 Table 49 PWOK Signal Characteristics ccccccccsssseceeeeeeeeseeeeeneeeeeeeeceeessneneeeeeeeeeeessssnnaaeess 44 Table 50 Acoustic Requirements E 46 Table 51 Thermal Requirements EE 46 Table 52 AG Inp t Rating DEE 47 Table 53 AC Line Sag Transient Performance AEN 47 Table 54 AC Line Surge Transient Pertomance 48 Table 55 Performance Criteniaic esccedassceadsessusneeeeszedtepecd cae deadedosee leat daest lee laeeagunttedeseriee En 48 Table 56 Holdup Requirements EE 49 Table 57 Edge Finger Power Supply Connector Pin Out cccccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeees 51 Table 58 Power Supply Module Load Hatngs nenene 53 Table 59 Voltage Regulation Limits scccsccsesteineciassetelenscnsenedcoredaessaboettiena taeastisenllanumnecteehaeweeodth 53 Table 60 Transient Load Requirement ceceeeececcceeeeeeeeeeeeneeeeeeeeeeeeeesseaeeeeeeeeeeseeeeeeseeaeees 53 Table 61 Capacitive Loading Conditions i120 aie eee 54 Table 62 Ripple andNotse AAA 54 Table 63 Output Voltage Timing ED 55 Table 64 Turn On Off Timing erer A EEEE E EEE 56 Table 65 Over current Protection OC 57 Table 66 Over v
65. ce Ukraine CE Low Voltage Directive 73 23 EEE Europe e IRAM Certification Argentina 9 1 2 Product EMC Compliance Class A Compliance The Intel Entry Server Chassis SC5299 E has been tested and verified to comply with the following electromagnetic compatibility EMC regulations when configured with an Intel compatible server board For information on compatible server boards refer to Intel s Server Builder website or contact your local Intel representative FCC ICES 003 Emissions USA Canada Verification CISPR 22 Emissions International EN55022 Emissions Europe Revision 3 1 127 Intel order number D37594 005 Regulatory Environmentals and Specifications Intel Entry Server Chassis SC5299 E TPS 9 1 3 128 EN55024 Immunity Europe EN61000 3 2 Harmonics Europe EN61000 3 3 Voltage Flicker Europe CE EMC Directive 89 336 EEC Europe VCCI Emissions Japan AS NZS 3548 Emissions Australia New Zealand BSMI CNS13438 Emissions Taiwan GOST R 29216 91 Emissions Russia GOST R 50628 95 Immunity Russia Belarus License Belarus Ukraine License Ukraine RRL MIC Notice No 1997 41 EMC amp 1997 42 EMI Korea Product Ecology Requirements All materials parts and subassemblies do not contain restricted materials as defined in Intel s Environmental Product Content Specification of Suppliers and Outsourced Manufacturers The Environmental Content Specification include
66. ce 2 0 0 0 ccc cceeeeeceeeeeeeeeccsseseeceecceeeeecsssssaaeeeeeeeeeeeeses 127 9 1 1 Product Safety Compliance EE 127 9 1 2 Product EMC Compliance Class A Complance 127 9 1 3 Product Ecology Requirements E 128 9 1 4 Certifications Registrations Declarations ccccceesscceesssseeeeessseeeeessseeeeeesstaeeees 128 9 1 5 Product Regulatory Compliance Markings c ccccccccsssseceecssseeeeeessteeeeeessseeeeeees 129 9 2 Electromagnetic Compatibility Notices cccceccscceecessseeeeeessneeeeeeesaeeeesessaeeeeses 130 9 2 1 FCC Verification Statement USA a 130 9 2 2 EL EE 130 9 2 3 Europe CE Declaration of Conformity sseessseesernestreerneerereeeernnsernrsrrnrerrneer 131 9 2 4 Japan EMC Egaal ee EE 131 9 2 5 EGRET 131 9267 PRE RORCA iin beet T 131 9 3 Regulated Specified COMPONENTS ccccessseccessseseeeesseseeeeeecseeeeeeessaeeeeesssaeeeees 132 9 4 End of D eier 132 9 5 Restriction of Hazardous Substances RoHS Complance 132 9 6 Replacing the Back up Ee TEE 133 9 7 System level Environmental Limits c ccccccessceceesseseeeeeesseeeesseseeeeeeesseeeeeeeseaeees 133 9 8 BTU TOR Ma HOM EE 134 9 9 Serviceability and BET EE 135 vi Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Table of Contents 9 10 CUE TG Pato cc pect tic herbage Ga detente alc Salah aaa ces eed nice Coie atu 135 Appendix A Integration and Usage Tips cs cssee
67. ceived including interference that may cause undesired operation Intel Corporation 5200 N E Elam Young Parkway Hillsboro OR 97124 6497 Phone 1 800 628 8686 This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures Re orient or relocate the receiving antenna Increase the separation between the equipment and the receiver Connect the equipment to an outlet on a circuit different from that to which the receiver is connected Consult the dealer or an experienced radio TV technician for help Any changes or modifications not expressly approved by the grantee of this device could void the user s authority to operate the equipment The customer is responsible for ensuring compliance of the modified product Only pe
68. corresponding to the operating conditions shown in the table below The PSU acoustic test report shall at the minimal include the PSU dimension picture fan model and size fan voltage or duty cycle RPM and PSU sound power level at each operating condition The proper RPM thermally sustainable shall be determined through PSU thermal testing and shall be submitted as appendix to the acoustic test report Table 21 Acoustic Requirements Operating Conditions Inlet Temperature of Maximum Loading LwAd BA Condition Condition Maximum 45 C 100 6 5 Operating 40 C 60 5 2 Idle 35 C 40 4 7 2 2 1 3 Temperature Requirements The power supply operates within all specified limits over the Top temperature range The average air temperature difference Tps from the inlet to the outlet of the power supply does not exceed 20 degrees C All airflow passes through the power supply and not over the exterior surfaces of the power supply 26 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Table 22 Environmental Requirements Item Description MIN Specification Units Top Operating temperature range 0 45 C Thon op Non operating temperature range 40 70 C Altitude Maximum operating altitude 1500 m The power supply meets UL enclosure requirements for temperature rise limits All sides of the power supply with exception of the air ex
69. ctor Power Supply cover exit hole 290 P3 4 Peripheral Power Connector Extension from P3 100 P4 4 Peripheral Power Connector Extension from P4 100 P5 4 Floppy Power Connector Power Supply cover exit hole 740 P6 4 Peripheral Power Connector Extension 75 P7 4 Peripheral Power Connector Power Supply cover exit hole 740 P8 4 Peripheral Power Connector Extension 75 P9 4 Peripheral Power Connector Power Supply cover exit hole 740 P10 5 Right angle SATA Power Connector Extension 75 P11 5 Right angle SATA Power Connector Revision 3 1 65 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 4 2 3 Baseboard Power Connector P1 Connector housing 24 Pin Molex Mini Fit Jr 39 01 2245 or equivalent Contact Molex Mini Fit HCS Female Crimp 44476 or equivalent Table 75 P1 Baseboard Power Connector Orange 24AWG Blue swe fe fe oom foam e fe p fee EC E a a e EE C a a Note Remote Sense wire double crimped 66 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 4 2 4 Processor Power Connector P2 Connector housing 8 Pin Molex 39 01 2080 or equivalent Contact Molex Mini Fit HCS Female Molex 44476 or equivalent Table 76 P2 Processor Power Connector 2 4 2 5 12V4 Power Connector P13 Connector housing 8 Pin Molex 39 01 2040 or equivalent Contact Molex Mini Fit Jr HCS 44476 1111 or equivalent Table 77 P1
70. current without fault 2 2 4 22 Timing Requirements The timing requirements for power supply operation are as follows The output voltages must rise from 10 to within regulation limits Tyout rise Within 5 to 7Oms except for 5VSB it is allowed to rise from 1 0 to 25ms The 3 3V 5V and 12V output voltages should start to rise approximately at the same time All outputs must rise monotonically The 5V output needs to be greater than the 3 3V output during any point of the voltage rise The 5V output must never be greater than the 3 3V output by more than 2 25V Each output voltage shall reach regulation within 50ms Tyout on Of each other during turn on of the power supply Each output voltage shall fall out of regulation within 400msec Tvout of Of each other during turn off The following figure shows the timing requirements for the power supply being turned on and off via the AC input with PSON held low and the PSON signal with the AC input applied Table 44 Output Voltage Timing Item Description Minimum Maximum Units Tout rise Output voltage rise time from each main output 5 0 70 msec Tyout_on All main outputs must be within regulation of each 50 msec other within this time T vom op All main outputs must leave regulation within this 400 msec time The 5VSB output voltage rise time shall be from 1 0 ms to 25 0 ms Revision 3 1 39 Intel order number D37594 005 Power Sub system In
71. dditional power converters to produce other required voltages An IEC connector is provided on the external face for AC input to the power supply The power supply contains cooling fans and meets acoustic requirements 2 3 1 Mechanical Overview 2 3 1 1 Handle and Retention Mechanism The power supply has a handle to provide a place to grip the power supply for removal and insertion The power supply has a simple retention mechanism to retain the power supply once it is inserted This mechanism withstands the specified mechanical shock and vibration requirements The tab on the retention mechanism is green to indicate it is a hot swap touch point The latch mechanism is designed in such a way as to prevent inserting the power supply with the power cord plugged in This aids the hot swapping procedure on removal the power cord is unplugged first then the power supply is removed on insertion the power supply is inserted first and then the power cord is plugged in The handle protects the operator from any burn hazard The plastic handle is molded in the following material Material Color Designation GE 2800 Green GN3058 BAYER FR2000 Green 3200 2 3 1 2 Acoustic and Fan Speed Control Requirements Sound power levels emitted by the power supply meet the requirements shown in the following table Sound power is measured as described in SO7779 Under a condition where inlet air temperature exceeds the limit sound power level may exceed the
72. e DI oer Pox C E H GROUND H E eux Grouno C E GROUND H D a ka GROUND ue Di mux GROUND C po mm D wm v CC GROUND a sux GrounD C CH x am OI EN ax C d l TS as w D oe ma ER 425 0 12 0 P2 212 58 j 83 526 Pi CO nmv aw IDI wax GROUND CH ui eum E max GROUND CH tai em D Bax GROUND Si e d Im Power Sub system 100 0 12 0 P5 12546 Gd E F i i vum PWS ER GROUND 250 0 12 0 P3 100 0 12 0 P4 H LV ji S ei o e P4 3 PN 4 1 T i Dim OI ka BLUE WHITE 12V2 o EN BLACK GROUND np O BLACK GROUND U malo h my 890 0 12 0 P6 75 0 12 0 P7 KE Pn oj az e P7 Ei u ei l PN d i P m Ps do BLUE WHITE 12v2 O DN BLACK GROUND V np Kl BLACK ema d d PN 4 reo aw 890 0 12 0 P8 75 0 12 0 P9 as al PIN Je ed Ks f Tawag bs i Den Jo F mupe s i vi EN BLACK GROUND L D o BACK GROUND U WS CG Je Ae
73. e Loading All outputs of the DC DC converter are stable and meet all requirements with the following capacitive loading ranges Table 87 Capacitive Loading Conditions Converter Output MIN MAX Units 3 3VDC 250 6 800 F 5VDC 400 4 700 F 12VDC 1 350 F Note Refer to the Power Supply specification for the equivalent data on 12V and 5VSB output 2 4 3 2 DC DC Converters Closed Loop Stability Each DC DC converter is unconditionally stable under all line load transient load conditions including capacitive load ranges A minimum of 45 degrees phase margin and 10dB gain margin is required 2 4 3 3 Common Mode Noise The common mode noise on any output does not exceed 350 mV peak peak over the frequency band of 10 Hz to 30 MHz Revision 3 1 71 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 4 3 4 DC DC Converters Ripple Noise The maximum allowed ripple noise output of each DC DC Converter is defined in the following table This is measured over a bandwidth of OHz to 20MHz at the PDB output connectors A 10 F tantalum capacitor in parallel with a 0 1 F ceramic capacitor is placed at the point of measurement Table 88 Ripple and Noise 3 3V Output 5V Output 12V Output 50mVp p 50mVp p 120mVp p Note Refer to the Power Supply specification for the equivalent data on 12V and 5VSB output 2 4 3 5 Fan Operation in Standby Mode The fans on th
74. e bay fan The 4 wire 120mm x 38mm fan provides cooling at the rear of the chassis by drawing fresh air into the chassis from the front and exhausting warm air out the system This fan is PWM controlled The server board monitors several temperature sensors and adjusts the duty cycle of the PWM signal to drive the fan at the appropriate speed The 92 mm drive bay fan for the SC5299WS configuration and the optional hot swap drive bay kit provides additional cooling to the drive bay by drawing fresh air from the front of the chassis through the drive bay and exhausting it into the PCI bay area Removal and insertion of the 120 mm or 92 mm fan can be done without tools The power supply fan assists in drawing air through the peripheral bay area through the power supply and exhausting it out the rear of the chassis All versions of the Intel Entry Server Chassis SC5299 E are optimized for server and workstation boards that have an active CPU heatsink solution If an optional hot swap drive bay is installed a 4 wire 92 mm fan is included with the mounting bracket kit for installation onto the drive bay This fan has a PWM circuit that allows the server board to control the fan speed based on sensor readings of ambient temperature In addition to these pre installed fans locations for three additional fans are provided for customized configurations Intel does not provide order part numbers for these customizable fan options A 120 mm fan can be mounted
75. e power distribution board continue to operate at their lowest speed 5V when in standby mode 2 4 3 6 Timing Requirements The timing requirements for the power supply PDB combination are as follows The output voltages must rise from 10 to within regulation limits Tvout rise within 5 to 70 ms except for 5VSB which is allowed to rise from 1 0 to 25 ms The 3 3V 5V and 12V output voltages start to rise at approximately the same time All outputs rise monotonically The 5V output is greater than the 3 3V output during any point of the voltage rise The 5V output is never greater than the 3 3V output by more than 2 25V Each output voltage reaches regulation within 50ms Tyout on Of each other during turn on of the power supply Each output voltage falls out of regulation within 400 msec Tu of Of each other during turn off The following figure shows the timing requirements for the power supply being turned on and off via the AC input with PSON held low and the PSON signal with the AC input applied Table 89 Output Voltage Timing Item Description Minimum Maximum Units Tyout rise Output voltage rise time from each main output 5 0 70 msec Tyout_on All main outputs must be within regulation of each 50 msec other within this time T vom op All main outputs must leave regulation within this 400 msec time The 5VSB output voltage rise time shall be from 1 0 ms to 25 0 ms 72 Revision 3 1 Inte
76. e power supply meets the in rush requirements for any rated AC voltage during turn on at any phase of AC voltage during a single cycle AC dropout condition as well as upon recovery after AC dropout of any duration and over the specified temperature range Top 2 3 2 7 Susceptibility Requirements The power supply meets the following electrical immunity requirements when connected to a cage with an external EMI filter that meets the criteria defined in the SSI document EPS Power Supply Specification Table 55 Performance Criteria Level Description A The apparatus shall continue to operate as intended No degradation of performance B The apparatus shall continue to operate as intended No degradation of performance beyond spec limits C Temporary loss of function is allowed provided the function is self recoverable or can be restored by the operation of the controls 48 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 3 2 7 1 Electrostatic Discharge Susceptibility The power supply complies with the limits defined in EN 55024 1998 using the IEC 61000 4 2 1995 test standard and performance criteria B defined in Annex B of CISPR 24 2 3 2 7 2 Fast Transient Burst The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 4 1995 test standard and performance criteria B defined in Annex B of CISPR 24 2 3 2 7 3 Rad
77. e regulation requirements for the minimum loading conditions Also the power supply supplies the listed peak currents and power for a minimum of 10 seconds Outputs are not required to be peak loaded simultaneously 52 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Table 58 Power Supply Module Load Ratings Voltage 650 W Min Max Peak 12 V OA 54 A 58 A 5 VSB 0 1A 3 0A 3 5A 2 3 3 5 Standby Output The 5VSB output is present when an AC input greater than the power supply turn on voltage is applied 2 3 3 6 Voltage Regulation The power supply output voltages stay within the following voltage limits when operating at steady state and dynamic loading conditions These limits include the peak peak ripple noise specified in Table 61 All outputs are measured with reference to the GND The 12V and 5VSB outputs are measured at the power distribution board output harness connector Table 59 Voltage Regulation Limits Parameter MIN NOM MAX Units 2 3 3 7 Dynamic Loading The output voltages remain within limits specified for the step loading and capacitive loading presented in the following table The load transient repetition rate has been tested between 5 Hz and 5 kHz at duty cycles ranging from 10 90 The load transient repetition rate is only a test specification The step load may occur anywhere between the MIN load and MAX load defined in the f
78. eat output of computer devices is often expressed in BTUs The following table provides the BTU information for each SKU of the Intel Entry Server Chassis SC5299 E Table 142 System BTU Information Table Power Supply Max Continuous Output Efficiency at 100 Loading BTU hr SC5299UP 420W 450W 70 2192 SC5299DP 550W 550W 70 2679 SC5299BRP 650W 610W 75 for power supply 3263 module 85 for DC to DC SC5299WS 670W 670W 68 3360 134 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Regulatory Environmentals and Specifications 9 9 Serviceability and Availability This system is designed to be serviced by qualified technical personnel only The desired Mean Time To Repair MTTR of the system is 30 minutes including diagnosis of the system problem To meet this goal the system enclosure and hardware have been designed to minimize the MTTR Following are the maximum times that a trained field service technician should take to perform the listed system maintenance procedures after diagnosis of the system Table 143 Mean Time To Repair Estimate Activity Time Estimate Remove cover Remove and replace hard disk drive Remove and replace 5 25 in peripheral device Remove and replace fixed power supply module Remove and replace hot swap power supply module Remove and replace drive cage fan Remove and replace system fan Remove and replace backpl
79. ector 2X24 12V 5 6 12V 12V 7 8 12V 12V 9 10 12V 12V 11 12 12V 12V 13 14 12V 12V 15 16 12V 12V 17 18 12V 12V Return 19 20 12V Return 12V Return 21 22 12V Return 12V Return 23 24 12V Return 12V Return 25 26 12V Return 12V Return 27 28 12V Return 12V Return 29 30 12V Return 12V Return 31 32 12V Return 12V Return 33 34 12V Return a Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Connector Upper Side Pin No Pin No Bottom Side Top Bottom 12V Return 35 36 12V Return 5VSB 37 38 AO SDA 39 40 12V Sharing PS_KILL 41 42 POK PS_ON_CTL 43 44 PS_Present FAN_TACH 45 46 VIN_GOOD_OUT SCL 47 48 OVER_TEMP The AC input for each power supply module connects through the card edge connector from the power distribution board to the power supply module 2 4 2 2 Output Connectors Listed or recognized component appliance wiring material AVLV2 CN rated min 105 degrees C 300VDC is used for all output wiring Table 74 Cable Lengths eran Length To Connector Number of Description mm Pins Power Supply cover exit hole 450 P1 24 Baseboard Power Connector Power Supply cover exit hole 580 P2 8 Processor Power Connector Power Supply cover exit hole 450 P12 5 Power Signal Connector Power Supply cover exit hole 550 P13 4 12V4 Power Conne
80. egrated temperature sensor for fan speed management External front Two USB ports Intel order number D37594 005 Revision 3 1 Intel Entry Server Chassis SC5299 E TPS Product Overview Configuration SC5299UP SC5299DP SC5299BRP SC5299WS connectors Color Black Construction 1 0 mm zinc plated sheet metal meets Intel Cosmetic Spec C25432 Chassis ABS Fire retardant non brominated PC ABS Dimensions 17 8 in 45 2 cm x 9 256 in 23 5 cm x 19 in 48 3 cm Pedestal Dimensions 9 256 in 23 5 cm x 17 6 in 44 7 cm x 19 in 48 3 cm Rack 1 2 Chassis Views Security lock USB ports mmoomk TP01717 Control panel controls and indicators Two half height 5 25 in peripheral drive bays 3 5 in removable media drive bay Internal hard drive bay cage behind door Figure 1 Front Closed Chassis View of Intel Entry Server Chassis SC5299 E Revision 3 1 Intel order number D37594 005 Product Overview Intel Entry Server Chassis C5299 E TPS TPOO866 Power supply fixed power supply shown AC input power connector I O Ports Expansion slot covers Alternate external SCSI knockout 120 mm system fan Serial B port knockout Location to install padlock loop External SCSI knockout Alternate Serial B port knockout SCT TOMNmMIOD gt Figure 2 Rear Closed Ch
81. ent Table 62 Ripple and Noise 12V Output 5VSB Output 120mVp p 50mVp p 2 3 3 12 Forced Load Sharing The 12V output has forced load sharing The output shares within 10 at full load All current sharing functions are implemented internal to the power supply by making use of the 12LS signal The power distribution board connects the 12LS signal between the two power supplies The failure of a power supply does not affect the load sharing or output voltages of the other supplies still operating The supplies are able to load share with up to 2 power supplies in parallel and operate in a hot swap redundant 1 1 configuration The 5Vsb output is not required to actively share current between power supplies passive sharing The 5Vsb outputs of the power supplies are connected together in the system so that a failure or hot swap of a redundant power supply does not cause these outputs to go out of regulation in the system 54 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 3 3 13 Timing Requirements The timing requirements for power supply operation are as follows The output voltages must rise from 10 to within regulation limits Tvout rise Within 5 to 70 ms except for 5VSB which is allowed to rise from 1 0 to 25 ms All outputs rise monotonically The following figure shows the timing requirements for the power supply being turned on and off via the AC input with PSON held
82. erformance criteria C defined in Annex B of CISPR 24 In addition the power supply meets the following Intel Requirement o A continuous input voltage below the nominal input range shall not damage the power supply or cause overstress to any power supply component The power supply must be able to return to normal power up state after a brownout condition Maximum input current under a continuous brownout shall not blow the fuse The power supply should tolerate a 3min ramp from 90VAC voltage to OVAC after the components have reached a steady state condition 2 3 2 10 2 Voltage Interruptions The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 11 1995 test standard and performance criteria C defined in Annex B of CISPR 24 2 3 2 11 AC Line Isolation Requirements The power supply meets all safety agency requirements for dielectric strength Transformers isolation between primary and secondary windings complies with the 3000Vac 4242Vdc dielectric strength criteria If the working voltage between primary and secondary dictates a higher dielectric strength test voltage the highest test voltage is used In addition the insulation system complies with reinforced insulation per safety standard IEC 950 Separation between the 50 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system primary and secondary circuits and primary to ground circuits complies w
83. eripheral and Hard Drive Support csecceecseceseeeeeeeseeneeeeeeeeeeeeeeseeenensneesseseeeseenseeeeeees 107 4 1 3 5 in Peripheral Drive aere coved casdecas ie taacpea dvundesaduaretecstadsiuetats oaanRiai 107 4 2 5 25 in Peripheral Drive Bee 107 4 3 Hard Disk Drive Bay Sienai nenni AN eae 108 4 3 1 fFixed Hard Drive EE 108 4 3 2 SAS Non expander Serial ATA SATA Hot Swap Back Plane HS 109 5 Standard Control Paneli ancien ee een eee 120 5 1 Control Feed eege EE ee 120 6 Intel Local Control PANE rereana sesecetsanscnazzeccsvcsdsnazecuseececesaveceuaseenaneeinece canveckeedeseetacbers 122 6 1 Internal Control Panel Headgears cccnsccecseccerccecessts teats Nat deed de ENEE deg 123 Revision 3 1 v Intel order number D37594 005 Table of Contents Intel Entry Server Chassis SC5299 E TPS 7 SYSTEM JOERS HO ees ee e 124 7 1 SIC HIER ee 124 7 2 Chassis Internal alleguerten eege ge A ee ad neers es 124 7 2 1 Control Panel ee EE 124 Bre E ET 124 7 2 3 bag 124 7 2 4 Chassis Intrusion Cable eebe eege ee 124 7 3 Server Board Internal Cables 2getkeregueteikeged Age deENdEAENREEENEN ANERER gerEde 124 74 Accessory EE 124 7 5 UO Panel Eed ee eege 124 76 Spares Tee EE 125 8 Supported Intel Server BOards ccsecccseeeeesneeeseeeeeeseeesseeeeeeaeeeeeeaeeeseeeeeseaeeeseeeeensaees 126 9 Regulatory Environmentals and Specifications ccssccccesssseeeesesceeseeeseeeeeenneeeeees 127 9 1 Product Regulatory Complian
84. errnnrrsrtersserrnnnrennne 134 Table 142 System BTU Information Tab Give ste cite tacdeiadenuseivreneed ger erer deg eg edengc 134 Table 143 Mean Time To Repair Estimate ccccccceccceeeeseeseeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeesneeeesaeees 135 Table 144 Intel Entry Server Chassis SC5299 E Component MTBF s src 136 XI Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS List of Tables lt This page intentionally left blank gt Revision 3 1 XV Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Product Overview 1 Product Overview The Intel Entry Server Chassis SC5299 E is a 5 2U pedestal or 6U rack mountable server chassis that is designed to support the Intel Server Boards S5000PSL S5000XVN S5000VSA and S3420GP series This chapter provides a high level overview of the chassis features Greater detail for each major chassis component or feature is provided in the following chapters 1 1 Intel Entry Server Chassis SC5299 E Design Features The Intel Entry Server Chassis SC5299 E addresses the value server market with three power factor correction PFC power supply unit PSU configurations C5299UP 420 W fixed PSU for single processor server boards C5299DP 550 W fixed PSU for dual processor server boards SC5299WS 670 W fixed PSU for dual processor workstation boards C5299BRP 650 W 1 1 redundant PSU for dual processor server boa
85. ery after AC dropout of any duration and over the specified temperature range Top AC line inrush current may reach up to 60A peak for up to 1 ms 2 1 4 6 AC Line Surge The power supply is tested with the system for immunity to AC Ringwave and AC Unidirectional wave both up to 2kV per EN 55024 1998 EN 61000 4 5 1995 and ANSI C62 45 1992 The power supply complies with the limits defined in EN 55024 1998 using the IEC 61000 4 5 1995 test standard and performance criteria B defined in Annex B of CISPR 24 2 1 4 7 AC Line Transient Specification AC line transient conditions are defined as sag and surge conditions Sag conditions are also commonly referred to as brownout these conditions will be defined as the AC line voltage dropping below nominal voltage conditions Surge will be defined to refer to conditions when the AC line voltage rises above nominal voltage The power supply meets the requirements under the following AC line sag and surge conditions Revision 3 1 15 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 9 AC Line Sag Transient Performance Duration Sag Operating AC Voltage Line Frequency Performance Criteria Continuous 10 Nominal AC Voltage ranges 50 60Hz No loss of function or performance 0to1AC 100 Nominal AC Voltage ranges 50 60Hz No loss of function or performance cycle gt 1 AC cycle gt 10 Nominal AC Voltage ranges 50
86. es Refer to the Drive Cage Upgrade Kit Installation Guide for the Intel Entry Server Chassis SC5299 E for complete hot swap drive cage installation instructions When installed the hot swap drive bay replaces the fixed hard drive bay The Intel Entry Server Chassis SC5299 E makes extensive use of tool less hardware features that support tool less installation and removal of fans fixed and hot swap hard drives fixed and hot swap drive bays PCI cards hot swap PSU modules fixed PSU floppy drives and CD DVD ROM drives Revision 3 1 1 Intel order number D37594 005 Product Overview Intel Entry Server Chassis SC5299 E TPS This specification details the key features of the product Reference documents listed at the back of this document provide additional product specification details for the server boards backplanes and power supplies validated for use with this chassis Check the compatibility section on the support website for more details http Avww intel com p en_US support highlights server sc5299 e The following table summarizes the features for all chassis combinations Table 1 Intel Entry Server Chassis SC5299 E UP DP BRP and WS Features Configuration SC5299UP SC5299DP SC5299BRP SC5299WS Intel Server Board Support Intel Server Board S3200SHV Intel Server Board 3210SHLC Intel Server Board 3210SHLX Intel Server Board S3430GPV Intel Server Board S5000VSA Inte
87. evice address locations are shown in the following table Table 96 Device Address Locations Power Supply FRU Device AOh A2h PDB FRU Data Ach PBD Monitoring 4Ah 2 4 6 2 Summary of PSMI features for PDB Item Description Scaling Accuracy Associated Registers Fan A slow fan indication shall be provided TBD NA Event register bit monitoring before the power supply shuts down due to slowing fan failure Hysteresis Mask register bit on the fan monitoring shall be provided to prevent oscillation of the warning indicator Revision 3 1 79 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Item Description Scaling Accuracy Associated Registers 240VA Indicators for sensing one of the NA Event register bit monitoring 240VA channels have tripped and shut down the power supplies Mask register bit DC DC Indicators for sensing a DC DC failure Event register bit failure on the power distribution board sensing Mask register bit 2 5 670 W Power Supply The 670 W specification defines a non redundant power supply that supports entry server systems This 670 W power supply has 8 outputs 3 3V 5V 12V1 12V2 12V3 12V4 12V and 5VSB The power supply contains a single 80 mm fan for cooling the power supply and part of the system 2 5 1 Mechanical Overview The physical size of the power supply enclosure is intended to accommodate power
88. f the power supply latches off due to a protection circuit tripping an AC cycle OFF for 15sec and a PSON cycle HIGH for 1sec will reset the power supply 2 3 4 1 Over current Protection OCP The power supply has a current limit to prevent the 5VSB and 12V outputs from exceeding the values shown in the following table If the current limits are exceeded the power supply will shut down and latch off The latch will be cleared by toggling the PSON signal or by an AC power interruption The power supply is not damaged from repeated power cycling in this condition 5VSB is protected under over current or shorted conditions so that no damage can occur to the power supply Table 65 Over current Protection OCP Output Over current Protection Limits Voltage 12V 120 min 65 0 A min 140 max 76 0 A max 5VSB 120 min 3 6 A min 200 max 6 0 A max Revision 3 1 57 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 3 4 2 Over voltage Protection OVP The power supply s over voltage protection is locally sensed The power supply will shut down and latch off after an over voltage condition occurs This latch can be cleared by toggling the PSON signal or by an AC power interruption The following table contains the over voltage limits The values are measured at the output of the power supply s connectors The voltage never exceeds the maximum levels when measured at the power pi
89. g handtering Udskiftning ma kun ske med batteri af samme fabrikat og type Lev r det brugte batteri tilbage til leverand ren ADVARSEL Lithiumbatteri Eksplosjonsfare Ved utskifting benyttes kun batteri som anbefalt av apparatfabrikanten Brukt batteri returneres apparatleverandgren VARNING Explosionsfara vid felaktigt batteribyte Anv nd samma batterityp eller en ekvivalent typ som rekommenderas av apparattillverkaren Kassera anv nt batteri enligt fabrikantens instruktion VAROITUS Paristo voi r j ht jos se on virheellisesti asennettu Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin H vit k ytetty paristo valmistajan ohjeiden mukaisesti 9 7 System level Environmental Limits The following table defines the system level operating and non operating environmental limits office or computer room environment Revision 3 1 133 Intel order number D37594 005 Regulatory Environmentals and Specifications Intel Entry Server Chassis SC5299 E TPS Table 141 System Office Environment Summary System Cooling Requirement in BTU hr 9 8 BTU Information BTU short for British Thermal Unit is a British standard unit of energy One BTU is equal to the amount of heat required to raise the temperature of one pound of liquid water by 1 degree Fahrenheit at its maximum density which occurs at a temperature of 39 1 degrees Fahrenheit One BTU is equal to approximately 251 9 calories or 1055 joules The h
90. h output voltage shall reach regulation within 50ms Tyout on of each other during turn on of the power supply Each output voltage shall fall out of regulation within 400msec Tyout ol Of each other during turn off The following table shows the timing requirements for the power supply being turned on and off via the AC input with PSON held low and the PSON signal with the AC input applied Table 123 Output Voltage Timing Item Description MIN MAX Units Lat rise Output voltage rise time from each main output 5 0 70 msec Tou on All main outputs must be within regulation of each 50 msec other within this time T vom op All main outputs must leave regulation within this 400 msec time 1 The 5VSB output voltage rise time shall be from 1 0 ms to 25 ms V out 10 V out V2 V3 ge lt gt Tyout_off EE Tyout_rise I Tyout_on TP02313 Figure 19 Output Voltage Timing Revision 3 1 99 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 124 Turn On Off Timing sb_on_delay Delay from AC being applied to 5VSB being within 1500 ms regulation ac_on_delay Delay from AC being applied to all output voltages being 2500 ms within regulation vout_holdup Time all output voltages stay within regulation after loss of 2 E ms AC pwok_holdup Delay from loss of AC to de assertion of PWOK
91. hassis SC5299 E UP DP BRP and WS Features 2 Table 2 Environmental Requirement cccccccceeseceececceeeeeeeeeseceeeseeeeeseeeesssenseeeeeesenenseenaeeeess 10 Tables Cable ne EE 12 Table 4 P1 Baseboard Power Connector ssssrsrirsesesrertttrtttttttrttttttttneeeettrnnnnnnnnnt nne rnn nannat 12 Table 5 P2 Processor Power Connechor 13 Table 6 P3 P6 P8 P9 Peripheral Connectors sicicsssiassntenisewieenonehuiadann nen aedaen 13 Table 7 P10 Right angle SATA Power Connechor 14 Table 8 le Erd EE 14 Table 9 AC Line Sag Transient Performance EEN 16 Table 10 AC Line Surge Transient Performance 16 BECK Rule EE 17 Table 12 Voltage Regulation Limits EE 18 Table 13 Transient Load Requirement cescecececccceeeeeeeeeeeneeceeeeeeeeeseaaeaeaeeeeeeeeseeeeeesenenees 18 Table 14 Capacitive Loading Conditions ENEE 19 Table 15 Ripple a d NoiSe s geneet detas eebe Eege Ee dee de H 19 Table 16 Output Voltage Timing EE 20 Table17 T r OMO TIMING EE 20 Table 18 Over Voltage Protection Limits iisacsictiecets iissctsecstoacesedsvouadetdaceneuasbevasielis extaadeurddvenbenane 22 Table 19 PSON Signal Characteristic guiincics et deg eege e e GAEREN Gett 23 Table 20 PWOK Signal Characteristics d 22gEevecuegieeeuaeee r Sege eege EEN ESOEEENE e 23 Table 21 Acoustic Requirements kees eege decke Eege Eed EE 26 Table 22 Environmental REQUIFGMEINS get eege eege eege 27 Table 292 AGC elef gt ne DEE 27 Table 24 AC Line Sag
92. haust side must be classified as Handle knobs grips etc held for short periods of time only 2 2 2 AC Input Voltage Requirements The power supply operates within all specified limits over the input voltage range shown in the following table Harmonic distortion of up to 10 THD must not cause the power supply to go out of specified limits The power supply will power off if the AC input is less than 75VAC 5VAC range The power supply starts up if the AC input is greater than 85VAC 4VAC Application of an input voltage below 85VAC will not cause damage to the power supply including a fuse blow Table 23 AC Input Rating Voltage 110 90 Vims 100 127 Vims 140 Vims 85Vac 75Vac 4Vac 5Vac Voltage 220 180 Vins 200 240 Vis 264 Vims 2 2 2 1 AC Inlet Connector The AC input connector is an IEC 320 C 14 power inlet This inlet is rated for 15A 250VAC 2 2 2 2 AC Line Transient Specification AC line transient conditions are defined as sag and surge conditions Sag conditions are also commonly referred to as brownout these conditions will be defined as the AC line voltage dropping below nominal voltage conditions Surge will be defined to refer to conditions when the AC line voltage rises above nominal voltage The power supply meets the requirements under the following AC line sag and surge conditions Revision 3 1 27 Intel order number D37594 005 Power Sub system Intel Entry
93. iated Immunity The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 3 1995 test standard and performance criteria A defined in Annex B of CISPR 24 2 3 2 7 4 Surge Immunity The power supply has been tested with the system for immunity to AC Ringwave and AC Unidirectional wave both up to 2kV per EN 55024 1998 EN 61000 4 5 1995 and ANSI C62 45 1992 The pass criteria included No unsafe operation allowed under any condition all power supply output voltage levels remain within proper spec levels no change in operating state or loss of data during and after the test profile no component damage under any condition The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 5 1995 test standard and performance criteria B defined in Annex B of CISPR 24 2 3 2 8 AC Line Dropout Holdup Below are the AC dropout requirements Table 56 Holdup Requirements Loading Holdup Time 100 12 msec 60 20 msec An AC line dropout is defined to be when the AC input drops to OVAC at any phase of the AC line for any length of time During an AC dropout condition the power supply meets dynamic voltage regulation requirements An AC line dropout of any duration will not cause tripping of control signals or protection circuits If the AC dropout lasts longer than the hold up time the power supply recovers and meets all turn on requirements The power supply meets the A
94. in current limit Revision 3 1 77 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 94 PWOK Signal Characteristics Signal Type PWOK High PWOK Low Logic level low voltage Isink 4mA Logic level high voltage Isource 200 A Sink current PWOK low Source current PWOK high 2 4 5 4 SMBAlert This signal indicates that the power supply is experiencing a problem that the user should investigate The signal may be asserted due to critical events or warning events The SMBAlert signal will be asserted whenever there is at least one event condition in the power supply or cage The SMBAlert signal will automatically be cleared when the cause of the event is no longer present Table 95 SMBAlert Signal Characteristics Signal Type Active Low EC eu Alert High OK Alert Low Power Alert to system MIN MAX Logic level low voltage Isink 4 mA OV 0 4V Logic level high voltage Isink 50 A 5 25 V Sink current Alert low 4mA Sink current Alert high 50 A Alert rise and fall time 100 s 78 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 4 6 PSMI Power Supply Monitoring Interface The power supply and cage combination provide a monitoring interface to the system over a server management bus to the system The device is compatible with both SMBus 2 0 high powe
95. is required to remotely turn on off the power supply PSON is an active low signal that turns on the 3 3V 5V 12V and 12V power rails When this signal is not pulled low by the system or left open the outputs except for the 5VSB turn off This signal is pulled to a standby voltage by a pull up resistor internal to the power supply 76 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Table 93 PSON Signal Characteristics Signal Type Accepts an open collector drain input from the system Pull up to VSB located in power supply PSON Low PSON High or Open Logic level low power supply ON Logic level high power supply OFF Source current Vpson low 2 4 5 2 PSKILL The purpose of the PSKill pin is to allow for hot swapping of the power supply The mating pin of this signal on the cage input connector is tied to ground and its resistance is less than 5 ohms 2 4 5 3 PWOK Power OK Input and Output Signals PWOK is a power OK signal and will be pulled HIGH by the power supply to indicate that all the outputs are within the regulation limits of the power supply When any output voltage falls below regulation limits or when AC power has been removed for a time sufficiently long so that power supply operation is no longer guaranteed PWOK will be de asserted to a LOW state The start of the PWOK delay time is inhibited as long as any power supply output is with
96. ith the IEC 950 spacing requirements 2 3 2 12 Power Factor Correction The power supply incorporates a power factor correction circuit The power supply has been tested as described in EN 61000 3 2 Electromagnetic Compatibility EMC Part 3 Limits Section 2 Limits for harmonic current emissions and meets the harmonic current emissions limits specified for ITE equipment The power supply has been tested as described in JEIDA MITI Guideline for Suppression of High Harmonics in Appliances and General Use Equipment and meets the harmonic current emissions limits specified for ITE equipment 2 3 3 DC Output Specification 2 3 3 1 Connector The power supply provides card edge fingers which mate to a connector located inside the system It is a blind mating type of connector that connects the power supply s output voltages and signals The card edge finger pin assignments are defined in the following table Table 57 Edge Finger Power Supply Connector Pin out Connector Upper Side Pin No Pin No Bottom Side Top Bottom 12V 1 2 12V Gold finger edge 12V 3 4 12V connector 2X24 12V 5 6 12V 12V 7 8 12V 12V 9 10 12V 12V 11 12 12V 12V 13 14 12V 12V 15 16 12V 12V 17 18 12V 12V Return 19 20 12V Return 12V Return 21 22 12V Return 12V Return 23 24 12V Return 12V Return 25 26 12V Return Revision3 1 0000 Di Intel order number D37594 005 Power S
97. ity features for each specific supported platform Technical product specifications can be found at http intel com support 1 5 1 0 Panel All input output I O connectors are accessible from the rear of the chassis The SSI E bay 3 61 compliant chassis provides an ATX 2 2 compatible cutout for I O shield installation Boxed Intel server boards provide the required UO shield for installation in the cutout The I O cutout dimensions are shown in the following figure for reference R 0 039 MAX TYP m 0 100 Min keepout around opening Baseboard Datum 0 0 0 150 _______ 950 0 008 Lean HH 0 650 Figure 5 ATX 2 2 I O Aperture 1 750 0 008 UO Aperture 1 6 Rack and Cabinet Mounting Option The Intel Entry Server Chassis SC5299 E supports a rack mount configuration The rack mount kit includes the chassis slide rails rack handle rack orientation label screws and manual This rack mount kit is designed to meet the EIA 310 D enclosure specification General rack compatibility is further described in the Server Rack Cabinet Compatibility Guide found at http intel com support 6 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Product Overview 1 7 Front Bezel Features The bezel is constructed of molded plastic and attaches to the front of the chassis with three clips on the right side and two snaps on the left The snaps at
98. kes any output voltage to rise from 10 to 95 of its nominal voltage Revision 3 1 139 Intel order number D37594 005
99. l Server Board S5000PSL Intel Server Board S5000XSL Intel Server Board 3420GPLC Intel Server Board S3420GPLX Intel Server Board S5000VSA Intel Server Board S5000PSL Intel Server Board S5000XSL Intel Server Board 3420GPLC Intel Server Board S3420GPLX Intel Server Board S5000XVN Power Delivery 420 W PFC Intel validated PSU with integrated cooling fan 550 W PFC Intel validated PSU with integrated cooling fan 650 W PFC Intel validated PSU with integrated cooling fan One additional 650 W PSU can be added for redundancy 670 W PFC Intel validated PSU with integrated cooling fan System Cooling One tool less 120 mm chassis fan One tool less 120 mm chassis fan One tool less 92 mm drive bay fan Peripheral Bays Two tool less multi mount 5 25 in peripheral bays One standard 3 5 in removable media peripheral bay Drive Bays Includes one tool less fixed drive bay Supports Includes one tool less Optional hot swap tool up to four hard drives fixed drive bay for up to less six drive bay is six fixed drives available Optional hot swap tool less drive bay is available PCI Slots 7 slots and support for 6 full length with tail card guide Form Factor 5 2U tower convertible to 6U rack mount Front Panel LEDs for NIC1 NIC2 HDD activity power status and system fault status Switches for power NMI and reset Int
100. l order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system I V out 10 V out Vi eas v2 Ao l v3 i K v4 i a i l Le zc Tvout_off ben Tvout_rise Le sd Tvout_on TP02313 Figure 15 Output Voltage Timing Table 90 Turn On Off Timing Top en gelen Delay from AC being applied to 5VSB being within 1500 ms regulation Tac_on_delay Delay from AC being applied to all output voltages 2500 ms being within regulation Tvout_holdup Time all output voltages stay within regulation after 60 2 ms loss of AC T pwok_holdup Delay from loss of AC to de assertion of PWOK em In ms pson_pwok Delay from PSON deactive to PWOK being de 50 ms asserted Tpwok_on Delay from output voltages within regulation limits to 100 500 ms PWOK asserted at turn on Revision 3 1 73 Intel order number D37594 005 Tpson_on_delay Delay from PSON active to output voltages within 5 400 ms regulation limits Power Sub system Intel Entry Server Chassis SC5299 E TPS Tpwok_off Delay from PWOK de asserted to output voltags ms 3 3V 5V 12V 12V dropping out of regulation 1 limits T pwok_low Duration of PWOK being in the de asserted state 100 ms during an off on cycle using AC or the PSON signal Tsb vout Delay from 5VSB being in regulation to O Ps being in ms 5 50 1000 regulation at AC turn on Ts5VSB_holdup Time the 5VSB output voltage stays within regul
101. l order number D37594 005 Intel Local Control Panel Intel Entry Server Chassis C5299 E TPS 6 Intel Local Control Panel The Intel Local Control Panel iLCP utilizes a combination of control buttons LEDs and an LCD display to provide system accessibility monitoring and control functions independently from the operating system Combined with an Intelv Management Module the iLCP allows a user to monitor the health of an Intel server platform or configure an Intel server for remote IPMI management The control panel assembly is pre assembled and is modular in design The module slides into a slot on the front of the chassis and is designed so that it can be adjusted for use with or without an outer front bezel Figure 28 SKU3 Pedestal Server Application Note The Intel Local Control Panel can only be used when either the Intel Management Module Professional Edition or Advanced Edition is installed in the system More information regarding the Intel Local Control Panel can be found on the Intel support web site The following diagram provides an overview of the control panel features Im DO D LCD Display Variable content LCD Up Navigation Button LCD Down Navigation Button LCD Backup Level Navigation Button ul es Bag Ber WE LCD Command Enter Button Figure 29 Local Control Panel Components 122 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis
102. lace of the fixed drive bay Both backplanes expanded and non expanded have a connector to accommodate a SAF TE controller on an add in card Each backplane type supports up to six 1 in hot swap drives when mounted in the docking drive Carrier 4 3 2 SAS Non expander Serial ATA SATA Hot Swap Back Plane HSBP The Intel Entry Server Chassis SC5299 E 6HDD SATA HSBP is a monolithic printed circuit board The architecture is based on the QLogic GEM424 enclosure management controller and has support for up to six SATA drives The Intel Entry Server Chassis SC5299 E 6HDD SATA HSBP supports the following feature set QlLogic GEM424 enclosure management controller External non volatile SEEPROMs Three I C interfaces SATA and SATA II extension compatible Compliance with SATA Accessed Fault Tolerant Enclosures SAF TE specification version 1 00 and addendum Compliance with Intelligent Platform Management Interface 1 5 IPMI Support for up to six 1 5GHz SATA drives Hot swap drive support Temperature sensor FRU EEPROM Two 4 pin standard hard drive power connectors The following figure shows the functional blocks of the SATA HSBP Revision 3 1 109 Intel order number D37594 005 Peripheral and Hard Drive Support Intel Entry Server Chassis SC5299 E TPS SATA BACK PLANE BOARD 6 PORT SATA SATA SATA SATA SATA SATA HDD1 HDD2 HDD3 HDD4 HDD5 HDD6 P 8 P 8 P 8 P 8 P 8 P 8 SATA 7PIN Conn6 Ft Ge
103. limit The power supply incorporates a variable speed fan The fan speed varies linearly based on output loading and ambient temperature The declared sound power levels LwAd of the power supply unit PSU meet the requirements shown in the following table Sound power is measured according to ECMA 74 www ecma international org and reported according to ISO 9296 The acoustic measurement of the power supply is performed with the power supply fan operating at the RPM corresponding to the operating conditions shown in the following table Revision 3 1 45 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 50 Acoustic Requirements Operating Conditions Inlet Temperature of Maximum Loading LwAd BA Condition Condition Maximum 1 0 and 1 1 45 C 100 lt 6 5 40 C 60 lt 5 2 Operating 1 0 and 1 1 Idle 1 0 and 1 1 35 C 40 lt 4 7 2 3 1 3 Temperature Requirements The power supply operates within all specified limits over the Top temperature range described in the following table The average air temperature difference from the inlet to the outlet of the power supply does not exceed 20 degrees C All airflow passes through the power supply and not over the exterior surfaces of the power supply Table 51 Thermal Requirements Item Description MIN Max Units Top Operating temperature range 0 45 C Thon op Non operating temperatu
104. mV P P Voltage Min Max ce Toma aes ron Noise test noise bandwidth is from 10 Hz to 20 MHz 2 Add 0 1 uF and 10uF low ESR capacitors at output connector terminals for ripple and noise measurements Main O P shall be enabled by pulled remote pin to TTL low level and disabled by pulled remote pin to TTL high level Max combined power on 5V and 3 3V outputs does not exceed 150 W 12V1 and 12V2 combined current does not exceed 30A 12V1 and 12V2 combined peak current does not exceed 34 A for over 12 seconds All outputs remain within regulation limits Maximum power does not exceed 450 W at 25 degrees C ambient and 420 W at 50 degrees C ambient Notes Di Ge KA Revision 3 1 17 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 1 5 5 Voltage Regulation The power supply output voltages are within the following voltage limits when operating at steady state and dynamic loading conditions These limits include the peak peak ripple noise All outputs are measured with reference to the return remote sense signal ReturnS The 5V 12V1 12V2 12V and 5VSB outputs are measured at the power supply connectors referenced to ReturnS The 3 3V is measured at the remote sense signal 3 3VS located at the signal connector Table 12 Voltage Regulation Limits Parameter MIN NOM MAX rer RS 2 1 5 6 Dynamic Loading The output voltages are within limits s
105. mpatibility Electromagnetic Compatibility Notices International CORE SE HANGRA VCCI OME CEI DSA APRRARECT COREBLRERACEATS CBR e Old ng COMBI ASAB MAR ERT DLIBRANSTEMBNET English translation of the above notice This is a Class A product based on the standard of the Voluntary Control Council For Interference VCCI from Information Technology Equipment If this is used near a radio or television receiver in a domestic environment it may cause radio interference Install and use the equipment according to the instruction manual 9 2 5 BSMI Taiwan The BSMI Certification number and the following warning is located on the product safety label which is located on the bottom side pedestal orientation or side rack mount configuration SERBS ee ee cena HR atte BoT BEA 9 2 6 RRL Korea Following is the RRL certification information for Korea 7171 z de ET GEI ect 1 2 mic 3 ol a aS 4 HS Haa 5 dza English translation of the notice above 1 Type of Equipment Model Name On License and Product 2 Certification No On RRL certificate Obtain certificate from local Intel representative Revision 3 1 131 Intel order number D37594 005 Regulatory Environmentals and Specifications Intel Entry Server Chassis SC5299 E TPS 3 Name of Certification Recipient Intel Corporation 4 Date of Manufacturer Refer to date code on product 5 Manufacturer Nation Intel Corporation Refer to count
106. n input voltage below 85VAC does not cause damage to the power supply including a fuse blow Table 52 AC Input Rating Parameter Start up VAC Power Off VAC Max Input Max Rated Current Input AC Current Voltage 110 90 Vims 100 127 Vims 140 Vims 85Vac 75Vac 9 63 Ams 8 7 Ams 4Vac 5Vac Voltage 220 180 Vms 200 240 Vms 264 Vms KE 4 82 Ane 4 4 Ams Notes 1 Maximum input current at low input voltage range shall be measured at 90Vac at max load 2 Maximum input current at high input voltage range shall be measured at 180VAC at max load 3 This is not to be used for determining agency input current markings 4 Maximum rated input current is measured at 100VAC and 200VAC 2 3 2 4 AC Line Transient Specification AC line transient conditions are defined as sag and surge conditions Sag conditions are also commonly referred to as brownout these conditions will be defined as the AC line voltage dropping below nominal voltage conditions Surge will be defined to refer to conditions when the AC line voltage rises above nominal voltage The power supply meets the requirements under the following AC line sag and surge conditions Table 53 AC Line Sag Transient Performance Duration Sag Operating AC Line Frequency Loading Performance Criteria Voltage Continuous 10 Nominal AC 50 60Hz 100 No loss of function or performance Voltage ranges 0 to AC 100 Nominal AC 50 60Hz 60 N
107. nap in EMI shield must be in place to ensure regulatory compliance A cosmetic plastic filler is provided to snap into the bezel The 3 5 in bay is designed for tool less insertion and removal so that no screws are required On the right side of the chassis two protrusions in the sheet metal help locate the drive On the left side are two levers to lock the drive into place 4 2 5 25 in Peripheral Drive Bays The Intel Entry Server Chassis SC5299 E supports two half height 5 25 in removable media peripheral devices such as a magnetic optical disk CD ROM drive or tape drive These peripherals can be up to 9 inches 228 6 mm deep on the non redundant power chassis The 650 W redundant power supply is longer in length and will limit the drives to approximately 7 5 in maximum length As a guideline the maximum recommended power per device is 17W Revision 3 1 107 Intel order number D37594 005 Peripheral and Hard Drive Support Intel Entry Server Chassis SC5299 E TPS Thermal performance of specific devices must be verified to ensure compliance to the manufacturer s specifications The 5 25 in peripherals can be inserted and removed without tools from the front of the chassis after taking off the access cover and removing the front bezel The peripheral bay utilizes visual guide holes to correctly line up the position of peripheral drives Locking slide levers push retaining pins into the drive to hold it securely in the bay EMI shield
108. ng the front bezel door 5 1 Control Panel The control panel buttons and LED indicators are displayed in the following figure The Entry Ebay SSI rev 3 61 compliant front panel header for Intel server boards is located on the back of the front panel This allows for connection of a 24 pin ribbon cable for use with SSI rev 3 61 compliant server boards The connector cable is compatible with the 24 pin SSI standard TP00872 Power Sleep LED Power button NMI button Reset Button LAN 1 Activity LED LAN 2 Activity LED Hard Drive Activity LED Status LED Zeommpoomz Figure 27 Panel Controls and Indicators 120 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Standard Control Panel Table 139 Control Panel LED Functions Link Activity BLINK LAN activity Link Activity BLINK LAN activity Hard drive activity BLINK Hard drive activity Status LED Green ON System ready not supported by all server boards BLINK Processor or memory disabled Amber ON Critical temperature or voltage fault CPU Terminator missing BLINK Power fault Fan fault Non critical temperature or voltage fault Fatal error during POST Note This is dependent on server board support Not all server boards support all features For additional details about control panel functions supported for a specific board refer to the individual server board specifications Revision 3 1 121 Inte
109. ng voltage limits when operating at steady state and dynamic loading conditions These limits include the peak peak ripple noise All outputs are measured with reference to the return remote sense signal ReturnS The 3 3V and 5V outputs are measured at the remote sense point all other voltages are measured at the output harness connectors Table 85 Voltage Regulation Limits age O age O mue mue 4 am am 00 4525 25 Vim 12VDC 5 5 11 40 12 00 12 60 Vim 12V1 2 3 4 mme 10 10 ETH 80 12 um um 20 Va Vms S C 5VSB See Power Supply Specification measured at the power distribution board harness connectors 2 4 3 DC DC Converters Dynamic Loading The output voltages remain within limits specified for step loading and capacitive loading as specified in the following table The load transient repetition rate is tested between 50 Hz and 5 70 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system kHz at duty cycles ranging from 10 90 The load transient repetition rate is only a test specification The step load may occur anywhere between the MIN load and MAX load conditions Table 86 Transient Load Requirements Max Step Load Size Max Load Slew Rate Test capacitive Load 12VDC 12V1 2 3 4 5 See the Power Supply specification for details 5VSB See the the Power Supply specification for details 2 4 3 1 DC DC Converter Capacitiv
110. not be damaged from repeated power cycling in this condition 12V and 5VSB are protected under over current or shorted conditions so that no damage can occur to the power supply The auto recovery feature is a requirement on the 5VSB rail Table 46 Over current Protection Voltage Over current Limit lout limit 3 3V 110 minimum 26 4A 150 maximum 36 0A 5V 110 min 26 4A 150 max 36 0A 12V1 50A min 60A max 12V2 18A min compliant with 240VA 12V 0 625A min 4 0A max 5VSB 6 0A max 2 2 5 2 Over voltage Protection OVP The power supply over voltage protection is locally sensed The power supply will shut down and latch off after an over voltage condition occurs This latch can be cleared by toggling the PSON signal or by an AC power interruption The following table contains the over voltage limits The values are measured at the output of the power supply s connectors The voltage never exceeds the maximum levels when measured at the power pins of the power supply connector during any single point of fail The voltage will not trip any lower than the minimum levels when measured at the power pins of the power supply connector Exception The 5VSB rail should be able to recover after its over voltage condition occurs Table 47 Over voltage Protection Limits 12V1 2 12V 42 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power S
111. ns of the power supply connector during any single point of fail The voltage will never trip any lower than the minimum levels when measured at the power pins of the power supply connector Table 66 Over voltage Protection Limits Output Voltage 12V 5VSB 2 3 4 3 Over temperature Protection OTP The power supply is protected against over temperature conditions caused by loss of fan cooling excessive ambient temperature or excessive loading Sensing points are placed at hot spots In an OTP condition the power supply will shut down When the power supply temperature drops to within specified limits the power supply restores power automatically while the 5VSB always remains on The OTP circuit has built in hysteresis such that the power supply will not oscillate on and off due to temperature recovery conditions The OTP trip level has a minimum of 4 degrees C of ambient temperature hysteresis 2 3 5 Control and Indicator Functions The following sections define the input and output signals from the power supply Signals that can be defined as low true use the following convention signal low true 2 3 5 1 PSON Input Signal The PSON signal is required to remotely turn on off the power supply PSON is an active low signal that turns on the 12V power rail When this signal is not pulled low by the system or left open the outputs except for the 5VSB turn off This signal is pulled to a standby voltage by a pull up resi
112. ntel has a system in place to restrict the use of banned substances in accordance with the European Directive 2002 95 EC Compliance is based on declaration that materials banned in the RoHS Directive are either 1 below all applicable substance threshold limits or 2 an approved pending RoHS exception applies Note RoHS implementing details are not fully defined and may change Threshold limits and banned substances are noted as follows Quaniitiy limit of 0 1 by mass 1000 PPM for Lead Mercury Hexavalent Chromium Polybrominated Biphenyls Diphenyl Ethers PBDE PBB Quantity limit of 0 01 by mass 100 PPM for 132 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis S C5299 E TPS Regulatory Environmentals and Specifications Cadmium 9 6 Replacing the Back up Battery The lithium battery on the server board powers the real time clock RTC for up to 10 years in the absence of power When the battery starts to weaken it loses voltage and the server settings stored in CMOS RAM in the RTC for example the date and time may be wrong Contact your customer service representative or dealer for a list of approved devices A WARNING Danger of explosion if battery is incorrectly replaced Replace only with the same or equivalent type recommended by the equipment manufacturer Discard used batteries according to manufacturer s instructions ADVARSEL Lithiumbatteri Eksplosionsfare ved fejlagti
113. o loss of function or performance cycle Voltage ranges Revision 3 1 47 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Duration Sag Operating AC Line Frequency Loading Performance Criteria Voltage gt 1 AC cycle gt 10 Nominal AC 50 60Hz 100 Loss of function acceptable self Voltage ranges recoverable Table 54 AC Line Surge Transient Performance Duration Surge Operating AC Voltage Line Frequency Performance Criteria Continuous Nominal AC Voltages 50 60Hz No loss of function or performance 0 to AC 30 Mid point of nominal AC 50 60Hz No loss of function or performance cycle Voltages 2 3 2 5 AC Line Fuse The power supply has a single line fuse on the line hot wire of the AC input The line fusing is acceptable for all safety agency requirements The input fuse is a slow blow type AC inrush current will not cause the AC line fuse to blow under any conditions All protection circuits in the power supply will not cause the AC fuse to blow unless a component in the power supply has failed This includes DC output load short conditions 2 3 2 6 AC In rush AC line in rush current does not exceed 55A peak for up to one quarter of the AC cycle after which the input current is no more than the specified maximum input current The peak in rush current is less than the ratings of its critical components including input fuse bulk rectifiers and surge limiting device Th
114. ollowing table Table 60 Transient Load Requirements Max Step Load Size Max Load Slew Rate Test Capacitive Load 12V 3 0A 0 5 A s 2200 F 1 Step loads on each 12V output may happen simultaneously 2 The 12V should be tested with 2200 F evenly split between the three 12V rails Notes Revision 3 1 53 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 3 3 8 Capacitive Loading The power supply is stable and meets all requirements with the following capacitive loading ranges Minimum capacitive loading applies to static load only Table 61 Capacitive Loading Conditions Output MIN MAX Units 12V 2000 11 000 F 5VSB 1 350 F 2 3 3 9 Closed Loop Stability The power supply is unconditionally stable under all line load transient load conditions including capacitive load ranges A minimum of 45 degrees phase margin and 10dB gain margin are met Closed loop stability is ensured at the maximum and minimum loads as applicable 2 3 3 10 Common Mode Noise The common mode noise on any output does not exceed 350mV pk pk over the frequency band of 10Hz to 20MHz 2 3 3 11 Ripple Noise The maximum ripple noise output of the power supply is defined in the following table This is measured over a bandwidth of OHz to 20MHz at the power supply output connectors A 10 F tantalum capacitor in parallel with a 0 1 F ceramic capacitor is placed at the point of measurem
115. oltage Protection Limite 58 Table 67 PSON E a EE 59 Revision 3 1 xi Intel order number D37594 005 List of Tables Intel Entry Server Chassis C5299 E TPS Table 68 PSKILL Signal Characteristics EEN 60 Table 69 PWOK Signal Characteristics E 60 Table 70 LED INdiCators ireen ant e EENEG 61 Table 71 SMBus Device Addressing ss sesnssseeessnersoerrntrttnrttsttrrntrrnntettntnsrrrnnnrtnen dE EES 62 Table 72 Environmental REQUIFEMOMINS wives cco sterseted tices cnreenees tenia ea eed nent ed nied 63 Table 73 Edge Finger Power Supply Connector Pin Out ccccceceeeeeeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeees 64 Table 74 Cable ue EE 65 Table 75 P1 Baseboard Power Connector AEN 66 Table 76 P2 Processor Power Connechor annene ane 67 Table 77 P13 12V4 Power EIER gege EE geg 67 Table 78 Power Signal CONnector scccins cies cascictvintn seacn ssns ege eege eENR 67 Table 79 Peripheral Power Connectors ccccccccessseencceeeeeeeeseceeneaeeeeeeeesseseeseeseeeeeeeeeeeseneaaas 68 Table 80 Floppy Power TT EE 68 Table 81 12V4 Power Egeter cencedncdsassth Ee EEN EE Ee 68 Table82 SATA POWGr EENEG Eu 69 Table 83 12V Outputs Load annere ele EENREESAEEENEEEN ENEE 69 Table 84 DC DC Converter Load Rating 70 Table 85 Voltage Regulation Limits scccciiscctdteneindendtind nici ener 70 Table 86 Transient Load Requirement 2 ceceeseeecccceeeeeeeeeeeneeeeeeneeeeeeessseeeeeeeeeeeseeneeeeeeeees 71 Table 87 Capacitive
116. on Figure 8 Output Voltage Timing Table 17 Turn On Off Timing T sb_on_delay Delay from AC being applied to 5VSB being within 1000 msec regulation Tac_on_delay Delay from AC being applied to all output voltages being 2500 msec within regulation Ws all output voltages stay within regulation after loss of Ea l AC 20 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system ewok_holdup Delay from loss of AC to de assertion of PWOK foo msec pson_on_delay Delay from PSON active to output voltages within regulation 400 msec limits pson_pwok Delay from PSON deactive to PWOK being de asserted Ia msec Tpwok_on Delay from output voltages within regulation limits to PWOK 100 asserted at turn on pwok_off Delay from PWOK de asserted to output voltages 3 3V 5V 12V 12V dropping out of regulation limits pwok_low Duration of PWOK being in the de asserted state during an 100 off on cycle using AC or the PSON signal To vout Delay from 5VSB being in regulation to O Ps being in 50 1000 regulation at AC turn on Ts5VSB_holdup Time the 5VSB output voltage stays within regulation after 70 msec loss of AC 2 1 5 11 Residual Voltage Immunity in Standby Mode The power supply is immune to any residual voltage placed on its outputs typically a leakage voltage through the system from standby output up to 500mV There is neither additional heat generated nor stress of any
117. on 3 1 23 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 2 550 Watt Power Supply The 550 W power supply specification defines a non redundant power supply that supports dual processor Intel Xeon entry server systems The 550 W power supply has 6 outputs 3 3V 5V 12V1 12V2 12V and 5VSB The form factor is SSI EPS12V at 140mm or 180mm depth Mechanical form factor Cooling Output Loading Efficiency recommendation Acoustics AC Input Holdup time SMBus PSM Protection LED Environmental EMI Reliability 100VAC Ecology 24 86 mm x 150 mm x 140 mm or 180 mm H x W x D Wire harness output Single 80 mm or 120 mm fan Variable fan speed based on output load and ambient temperature 550W 3 3V 24A 5V 24A 12Vtotal 40A 12V1 40A 12V2 16A 12V 0 5A 5VSB 3A 550W 45 degrees C added 12V power 70 efficiency 100 load 9OVAC 6 5 BA 100 load 45 degrees C 5 2 BA 60 load 40 degrees C 4 7 BA 40 load 35 degrees C 90VAC to 264AV Power Factor Corrected to meet EN61000 3 2 12 msec 100 load 20 msec 75 load No PSMI features over current over temperature over voltage 240VA protection on 3 3V 5V 12V2 12V and 5VSB no 240VA protection on 12V1 No LEDs 45 degrees C max inlet temperature 5 000 feet altitude EN55022 CISPR 22 Class A 10dB margin 75 load 100 000 hours MTBF and 3 year life
118. ontrol panel through a 2 pin chassis intrusion header on the control panel board 7 3 Server Board Internal Cables Depending on the specific server board support for these features some or all of the following cables may be included as part of the boxed board kit IDE Cable One or two 40 pin 80 conductor DMA33 66 100 IDE cables Serial Cable One 9 conductor cable terminated in a 2x5 header at one end and a 9 pin panel mount D sub connector on the other ships with the server board not the chassis SATA SAS Data Cable One or more cables with 7 contact connectors These connectors may feature a right angle or straight housing design 7 4 Accessory Cables 7 5 1 0 Panel Connectors The Intel Entry Server Chassis SC5299 E provides an ATX 2 2 and SSI E bay 3 61 compliant I O aperture for the backside I O The specific panel used will be provided in the boxed server board kit The following are typical panel connections 124 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS PS 2 keyboard connector _PS 2 mouse connector 9 pin serial port s 25 pin parallel port USB port s 15 pin video port Ethernet RJ 45 connector s 7 6 Spares and Accessories System Interconnection Product Code Description APP4RACKIT Rack mounting kit FXX550WPSU Replacement 550 W power supply for DP FPP4BRPCAGE Replacement 650 W cage for DP APP4
119. or cause overstress to any power supply component The power supply must be able to return to normal power up state after a brownout condition Maximum input current under a continuous brownout shall not blow the fuse The power supply should tolerate a 3min ramp from 90VAC voltage to OVAC after the components have reached a steady state condition 2 5 7 12 2 Voltage Interruptions The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 11 1995 test standard and performance criteria C defined in Annex B of CISPR 24 2 5 7 13 AC Line Isolation Requirements The power supply meets all safety agency requirements for dielectric strength Transformers isolation between primary and secondary windings complies with the 3000Vac 4242Vdc dielectric strength criteria In addition the insulation system complies with reinforced insulation per safety standard IEC 950 Separation between the primary and secondary circuits and primary to ground circuits complies with the IEC 950 spacing requirements 2 5 8 DC Output Specifications 2 5 8 1 Grounding The output ground of the pins of the power supply provides the power return path The output connector ground pins are connected to safety ground power supply enclosure This grounding is designed to ensure passing the maximum allowed common mode noise levels 2 5 8 2 Remote Sense The power supply has remote sense return ReturnS to regulate out ground drops for all o
120. orporation Other brands and names may be claimed as the property of others Copyright Intel Corporation 2005 2010 Revision 3 1 Intel Confidential iii Intel order number D37594 005 Table of Contents Intel Entry Server Chassis C5299 E TPS Table of Contents Te Product OVEN OW ee ol et cheese det ieee ae oth ea Aaaa naei 1 1 1 Intel Entry Server Chassis SC5299 E Design Features 1 1 2 Chassis Views oo caine laces cee St Sere ie he teed an Se Gah ae enc ea eaaae eegtseneeacceesaredeasteee 3 1 3 System RTE 6 1 4 Chassis SEENEN Stes arrana a a a EE aAa A eaa AAR AREENA E 6 1 5 VC PAIL st AEE E E EE ee 6 1 6 Rack and Cabinet Mounting Option 6 1 7 Front ET 7 1 8 Peripheral Bay EE 7 ex P w r Seege ee 8 2 1 420 Watt Power Een casnencsananeaectcancch cies saasyestaceanteasmduasetonta dean tieabicateasateea ten 8 2 1 1 Mechanical INECC er 9 2 1 2 Airflow and Temperature etc chalet eee cies cecal caderseunod Gs arlene aaa eee algae 10 2 1 3 GUTPUT Cable ECH enee Ee Eeer 10 2 1 4 AC Input Reoutrementzs 14 2 1 5 DC Output Specifications ie eege 16 2 1 6 Protection CU CUIES eege aere eege EES 21 2 2 550 Watt Power SUDDIy cc ceesssessssssssssesssesssessseeeceeeceeeeseeeseeceeeeseeeceeeeeees 24 2 2 1 Mechanical OUTING eege ahd eeben Eege ees 25 2 2 2 AC Input Voltage Requirements oas nnnnnnnooeeneneninieneareeennrrnnnnnnoorrnrrnnnnsnnsrrrrnnnneeen 27 2 2 3 REIH Eege 31 2 2 4 IIe ee d EE 31 2 2 5 PROTECTI
121. panels are installed and should be retained in unused 5 25 in bays to ensure proper cooling and EMI conformance Note Use caution when approaching the maximum level of integration for the 5 25 in drive bays Power consumption of the devices integrated needs must be carefully considered to ensure that the maximum power levels of the power supply are not exceeded 4 3 Hard Disk Drive Bays 4 3 1 Fixed Hard Drive Bay The Intel Entry Server Chassis SC5299 E comes with a removable hard drive bay that can accept up to six cabled 3 5 in x 1 in hard drives Power requirements for each individual hard drive may limit the maximum number of drives that can be integrated into an Intel Entry Server Chassis SC5299 E The drive bay is designed to allow adequate airflow between drives and no additional cooling fan is required Drives must be installed in the order of slot 1 3 5 first skipping slots to ensure proper cooling The drive bay is secured with a tool less retention mechanism Note The hard drive bay must be pushed forward or removed to install the server board TP00873 Figure 23 6 HDD Fixed Drive Bay Rear Isometric View 108 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Peripheral and Hard Drive Support The Intel Entry Server Chassis SC5299 E is capable of accepting a single SAS hot swap backplane hard drive enclosure in p
122. pecified for the step loading and capacitive loading specified in the following table The step load may occur anywhere within the MIN load to the MAX load conditions Table 13 Transient Load Requirements Parameter Voltage Overshoot Undershoot A 200mV 400mVpk pk 5VDC 2A TO 20A 3 3VDC 0 5A TO 17A 200mV 400mVpk pk 0 1A TO 2 0A 250mV 500mVpk pk 18 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 1 5 7 Capacitive Loading The power supply is stable and meets all requirements with the following capacitive loading ranges Table 14 Capacitive Loading Conditions Output MIN MAX Units 3 3V 250 6 800 F 5V 400 4 700 F 12V 1 2 500 each 11 000 F 12V 1 350 F 5VSB 20 350 F 2 1 5 8 Closed Loop Stability The power supply is unconditionally stable under all line load transient load conditions including capacitive load ranges A minimum of 45 degrees phase margin and 8dB gain margin is required Closed loop stability is ensured at the maximum and minimum loads as applicable 2 1 5 9 Ripple Noise The maximum allowed ripple noise output of the power supply is defined in the following table This is measured over a bandwidth of 0 Hz to 20 MHz at the power supply output connectors Table 15 Ripple and Noise 5V 12V1 2 12V 5VSB 50mVp p 50mVp p 120mVp p 120mVp p 50mVp p 2 1 5 10 Timing Requirements The
123. ptibility The power supply complies with the limits defined in EN 55024 1998 using the IEC 61000 4 2 1995 and the level 3 test standard and performance criteria B defined in Annex B of CISPR 24 28 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 2 2 3 2 Fast Transient Burst The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 4 1995 and the level 3 test standard and performance criteria B defined in Annex B of CISPR 24 2 2 2 3 3 Radiated Immunity The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 3 1995 and the level 3 test standard and performance criteria A defined in Annex B of CISPR 24 2 2 2 3 4 Surge Immunity The power supply is tested with the system for immunity to AC Ringwave and AC Unidirectional wave both up to 2kV per EN 55024 1998 EN 61000 4 5 1995 and ANSI C62 45 1992 The pass criteria include no unsafe operation is allowed under any condition all power supply output voltage levels must stay within proper spec levels no change in operating state or loss of data during and after the test profile no component damage under any condition The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 5 1995 test standard and performance criteria B defined in Annex B of CISPR 24 2 2 2 4 AC Line Fast Transient EFT Specification The power supply mee
124. r and DC Vaa based power and drive This bus operates at 3 3V The SMBus pull ups are located on the server board The SMBUS provides power monitoring failure conditions warning conditions and FRU data Two pins have been reserved on the connector to provide this information One pin is the Serial Clock PSM Clock The second pin is used for Serial Data PSM Data Both pins are bi directional and are used to form a serial bus The circuits inside the power supply are powered from the 5VSB bus and grounded to ReturnS remote sense return No pull up resistors are on SCL or SDA inside the power supply These pull up resistors are located external to the power supply The EEPROM for FRU data in the power supply is hard wired to allow writing data to the device Default Mode Operation The LEDs and registers automatically clear when a warning event has occurred Critical events will cause the power supply to shut down and latch the LED and SMBAlert signal A warning event will allow the LED and SMBAlert signal to de assert as soon as the condition driving the event clears The LED SMBAlert signal and critical event registers will still operate correctly if the power supply fails due to over temperature shut down over current shutdown over power shutdown or fan failure If the power supply fails due to loss of AC or open fuse then the LED and signals will not operate because of loss of power 2 4 6 1 Device Address Locations The PS PDB d
125. r supply to go out of specified limits The power supply does power off if the AC input is less than 75VAC 5VAC range The power supply starts up if the AC input is greater than 85VAC 4VAC Application of an input voltage below 85VAC does not cause damage to the power supply including a fuse blow Table 8 AC Input Rating PARAMETER MIN Rated MAX Max Input Startup VAC Power Off VAC Current Voltage 110 90 Vims 100 127 Vims 135 Vims 7 7 Ams 85Vac 75Vac 4Vac 5Vac Voltage 220 180 Vims 200 240 Vims 265 Vims 4 3 Aims bed 2 1 4 1 AC Inlet Connector The AC input connector is an IEC 320 C 14 power inlet This inlet is rated for 15A 250VAC 2 1 4 2 Efficiency The power supply has an efficiency of 68 5 at maximum load and over the specified AC voltage 2 1 4 3 AC Line Dropout Holdup An AC line dropout is defined to be when the AC input drops to OVAC at any phase of the AC line for any length of time During an AC dropout of one cycle or less the power supply meets dynamic voltage regulation requirements over the rated load An AC line dropout of one cycle or 14 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system less 20ms min does not cause any tripping of control signals or protection circuits 20ms holdup time requirement If the AC dropout lasts longer than one cycle the power will recover and meet all turn on requirements The power supply meets the AC d
126. rce current Vpson low WE 4mA 2 2 6 2 PWOK Power OK Output Signal PWOK is a power OK signal and is pulled HIGH by the power supply to indicate that all the outputs are within the regulation limits of the power supply When any output voltage falls below regulation limits or when AC power has been removed for a time sufficiently long so that power supply operation is no longer guaranteed PWOK will be de asserted to a LOW state The start of the PWOK delay time is inhibited as long as any power supply output is in current limit Revision 3 1 43 Intel order number D37594 005 Power Sub system Table 49 PWOK Signal Type PWOK High PWOK Low Logic level low voltage Isink 4mA Logic level high voltage Isource 200 A Sink current PWOK low Source current PWOK high PWOK delay Tpwok on PWOK rise and fall time Power down delay T pwok off 44 Intel Entry Server Chassis SC5299 E TPS Signal Characteristics SSES Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 3 650 W Power Supply Module The 650 W power supply module specification defines a 1 1 redundant power supply that supports a dual processor Intel Xeon server system The power supply has two outputs to power the system 12VDC and 5VSB A separate cage including the power distribution board is designed to plug directly to the output connector of the power supply module and provide a
127. rds The UP DP and WS power supply configurations each include an Intel validated PSU with an integrated cooling fan and one AC line input The BRP power supply configuration includes 1 of 2 redundant Intel validated PSU with an integrated cooling fan and one AC line input The cooling sub system in the Intel Entry Server Chassis SC5299 E consists of one 120 mm system fan and one power supply fan A 92 mm drive bay fan is only included with the SC5299WS configuration A 92 mm drive bay fan is also included with the optional hot swap drive bay mounting bracket kit A removable access cover provides entry to the interior of the chassis The rear I O panel conforms to the Advanced Technology Extended ATX Specification Revision 2 2 The chassis supports six full length expansion cards There are two front USB port connections and one rear knock out location for an optional rear mounted serial port A control panel board designed for Server Standards Infrastructure SSI Entry E Bay EEB 3 61 compliant server boards is also provided with the server chassis The Intel Entry Server Chassis S C5299 E supports up to six hard drives in all three configurations Two 5 25 in half height drive bays are available for peripherals such as CD DVD ROM drives and tape drives An optional hot swap SAS non expander SAS expander or SCSI drive bay kit provides an upgrade path to allow the Intel Entry Server Chassis SC5299 E to support up to six hot swap driv
128. re Configuration Read Enclosure Status Read Device Slot Status Read Global Flags Write Device Slot Status Perform Slot Operation 4 3 2 3 KC Serial Bus Interface The GEM424 controller supports two independent DC interface ports with bus speeds of up to 400Kbits The DC core incorporates 8 bit FIFOs for data transfer buffering The DC bus supports a National LM75 or equivalent I C based temperature sensor This enables actual temperature value readings to be returned to the host The Intelligent Platform Management Bus IPMB is supported through the I C port 0 The following figure provides a block diagram of IC bus connection implemented on the GHDD SATA HSBP Revision 3 1 111 Intel order number D37594 005 Peripheral and Hard Drive Support Intel Entry Server Chassis SC5299 E TPS Addr 0xA0 Addr 0xA2 68 amp 69 GEM424 Addr 0xA6 72 amp 73 Port 1 Addr 0x90 Figure 25 Intel Entry Server Chassis SC5299 E 6HDD SATA Hot Swap Backplane UC Bus 4 3 2 3 1 Connection Diagram LC Bus Address and Loading Table 129 CC Bus Addressing LM75 12C Address 24C128 EEPROM IC 24C512 EEPROM I2C 24C02 EEPROM IRC 90h AOh A2h A6h Table 130 CC Bus Loading Device Power Well ViH ViL VoL lleak CAP IC Address IC Bus Name LM75 P5V 0 7VCC 0 3VCC 0 4V 3mA 6uA 20PF 94h SDAO0 SCLO GEM424 P5V 0 7VCC 0 3VCC 0 4V 3mA 10uA 4P
129. re range 40 70 C Altitude Maximum operating altitude 1524 m 5 000 ft The power supply meets UL enclosure requirements for temperature rise limits All sides of the power supply with exception of the air exhaust side are classified as Handle knobs grips etc held for short periods of time only 2 3 1 4 LED Marking and Identification The LED is green or amber when lit 2 3 2 AC Input Requirements The 650 W power supply incorporates a universal power input with active power factor correction which reduces line harmonics in accordance with the EN61000 3 2 and JEIDA MITI standards 2 3 2 1 AC Inlet Connector The AC input connector is an IEC 320 C 14 power inlet This inlet is rated for 10A 250VAC 46 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 3 2 2 Efficiency The power supply has a minimum efficiency of 75 at maximum load and over an 90 264VAC line voltage range to guarantee proper power supply cooling while mounted in the system 2 3 2 3 AC Input Voltage Specification The power supply operates within all specified limits over the following input voltage range as shown in following table Harmonic distortion of up to 10 of rated AC input voltage will not cause the power supply to go out of specified limits The power supply powers off at or after oelow 75VAC 5VAC range The power supply starts up at or before above 85VAC 4VAC Application of a
130. ripherals computer input output devices terminals printers etc that comply with FCC Class A or B limits may be attached to this computer product Operation with non compliant peripherals is likely to result in interference to radio and TV reception All cables used to connect to peripherals must be shielded and grounded Operation with cables connected to peripherals that are not shielded and grounded may result in interference to radio and TV reception 9 2 2 ICES 003 Canada Cet appareil num rique respecte les limites bruits radio lectriques applicables aux appareils num riques de Classe A prescrites dans la norme sur le mat riel brouilleur Appareils Num riques NMB 003 dict e par le Ministre Canadian des Communications English translation of the notice above This digital apparatus does not exceed the Class A limits for radio noise emissions from digital apparatus set out in the interference causing 130 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Regulatory Environmentals and Specifications equipment standard entitled Digital Apparatus ICES 003 of the Canadian Department of Communications 9 2 3 Europe CE Declaration of Conformity This product has been tested in accordance to and complies with the Low Voltage Directive 73 23 EEC and EMC Directive 89 336 EEC The product has been marked with the CE Mark to illustrate its compliance 9 2 4 Japan EMC Co
131. ropout requirement over rated AC voltages frequencies and output loading conditions Any dropout of the AC line does not cause damage to the power supply 2 1 4 3 1 AC Line 5VSB Holdup The 5VSB output voltage stays in regulation under its full load static or dynamic during an AC dropout of 70ms min 5VSB holdup time whether the power supply is in the ON or OFF state PSON asserted or de asserted 2 1 4 4 AC Line Fuse The power supply has a single line fuse on the Line Hot wire of the AC input The line fusing is acceptable for all safety agency requirements The input fuse is a slow blow type AC inrush current does not cause the AC line fuse to blow under any conditions All protection circuits in the power supply do not cause the AC fuse to blow unless a component in the power supply has failed This includes DC output load short conditions 2 1 4 5 AC Inrush AC line inrush current does not exceed 65A peak for up to 10ms after which the input current is no more than the specified maximum input current at 265Vac input 25 degrees C and full load The peak inrush current is less than the ratings of its critical components including input fuse bulk rectifiers and surge limiting device For 10ms to 150ms the inrush current should be less than 25A peak The power supply meets the inrush requirements for any rated AC voltage during turn on at any phase of AC voltage during a single cycle AC dropout condition as well as upon recov
132. ry of origin marked on product 9 3 Regulated Specified Components To maintain the UL listing and compliance to other regulatory certifications and or declarations the following regulated components must be used and conditions adhered to Interchanging or use of other component will void the UL listing and other product certifications and approvals Server Chassis Base chassis is provided with power supply and fans UL listed Server board Must use an Intel server board UL recognized Add in boards Must have a printed wiring board flammability rating of minimum UL94V 1 Add in boards containing external power connectors and or lithium batteries must be UL recognized or UL listed Any add in board containing modem telecommunication circuitry must be UL listed In addition the modem must have the appropriate telecommunications safety and EMC approvals for the region in which it is sold Peripheral Storage Devices must be UL recognized or UL listed accessory and TUV or VDE licensed Maximum power rating of any one device is 19 watts Total server configuration is not to exceed the maximum loading conditions of the power supply 9 4 End of Life Product Recycling Product recycling and end of life take back systems and requirements vary from country to country Contact the retailer or distributor of this product for information on product recycling and or take back 9 5 Restriction of Hazardous Substances RoHS Compliance I
133. s Drawing Listed or recognized component appliance wiring material AVLV2 CN rated min 105 C 300VDC is used for all output wiring Table 99 Cable Lengths Eem Length To Connector Number of Description mm Pins Power Supply cover exit hole 425 P1 24 Baseboard Power Connector Power Supply cover exit hole 680 P2 8 Processor Power Connector Power Supply cover exit hole 375 P14 5 Power Signal Connector Power Supply cover exit hole 375 P15 6 PCI Express Connector Power Supply cover exit hole 680 P16 4 12V4 Power Connector Power Supply cover exit hole 450 P3 4 Peripheral Power Connector Extension 100 P4 4 Peripheral Power Connector Extension from P4 100 P5 4 Floppy Power Connector Power Supply cover exit hole 575 P6 4 Peripheral Power Connector Extension 75 Eu P7 4 pee eee Power Power Supply cover exit hole 740 P8 4 Peripheral Power Connector Extension 75 P9 4 Peripheral Power Connector Power Supply cover exit hole 740 P10 4 Peripheral Power Connector Extension 75 P11 4 Peripheral Power Connector Power Supply cover exit hole 740 P12 5 Right angle SATA Power Connector Extension 75 P13 5 SATA Power Connector Revision 3 1 83 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS IR eu zs 3 II Notes 1 All dimensions are in mm 2 All tolerances are 15 mm 0 mm 3 Install 1 tie
134. s MAX OCP Trip Limits 3 3V 110 min 26 4A min 150 max 36A max 5V 110 min 33A min 150 max 45A max See the Power Supply specification for details EES Revision 3 1 75 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 4 4 2 Over voltage Protection OVP Each DC DC converter output on the cage has individual OVP circuits built in and is locally sensed The PS cage combo will shut down and latch off after an over voltage condition occurs This latch can be cleared by toggling the PSON signal or by an AC power interruption The following table defines the over voltage limits The values are measured at the cage harness connectors The voltage does not exceed the maximum levels when measured at the power pins of the output harness connector during any single point of fail The voltage does not trip any lower than the minimum levels when measured at the power pins of the cage connector Table 92 Over voltage Protection OVP Limits Output Voltage OVP MIN V OVP MAX V 12V 13 3 14 5 12V1 2 3 4 5 See Power Supply specification 5vsb See Power Supply specification 2 4 5 Control and Indicator Functions Hard wired The following sections define the input and output signals from the power distribution board Signals that can be defined as low true use the following convention signal low true 2 4 5 1 PSON Input and Output Signals The PSON signal
135. s product bears the following regulatory marks Regulatory Compliance Region Marking cULus Listing Marks USA Canada c SL Us GS Mark Germany CE Mark Europe FCC Marking Class A USA This device complies with Part 15 ofthe FCC Rules Operation of this device is subject to the following hwo conditions 1 This device may not cause harmful interference and 2 This device must accept any interference received including interference that may cause undesired operation Manufactured by Intel Corporation EMC Marking Class A Canada CANADA ICES 003 CLASS A CANADA NMB 003 CLASSE A C Tick Mark Australia New Zealand VCCI Marking Class A Japan Coen SSR A Sei HB CC ORB Seen co HI SLBRMABS SRI CG k n d Core LC E te LEKT E ECKE SRETLSATAWMHO SE d YECLA BSMI Certification Taiwan rn Number amp Class A gt Warning WS HAZ 28 P PHA Gd R ENDER IS bm 7 dee SERATE TERRENT Ge EIERE EONS GOST R Marking Russia Tr RRL MIC Mark Korea my Revision 3 1 129 Intel order number D37594 005 Regulatory Environmentals and Specifications Intel Entry Server Chassis SC5299 E TPS 9 2 Electromagnetic Compatibility Notices 9 2 1 FCC Verification Statement USA This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference re
136. s the ban of substances noted in the European Restriction of Hazardous Substances RoHS Directive 2002 95 EC http supplier intel com ehs environmental htm Plastic parts do not use brominated flame retardant or any other halogenated retardants that are not accepted by environmental programs such as Blue Angels Nordic White Swan and Swedish TCO All plastic parts that weigh gt 25gm are marked with the 15011469 requirements for recycling Example gt PC ABS lt Packaging materials may not contain more than 100 ppm total of lead cadmium chromium or mercury If sold as a retail product packaging materials must be marked with applicable recycling logos for Europe green dot and Japan Eco marks All cords and cables contain lt 100 ppm of cadmium Certifications Registrations Declarations UL Certification US Canada CE Declaration of Conformity CENELEC Europe FCC ICES 003 Class A Attestation USA Canada VCCI Certification Japan C Tick Declaration of Conformity Australia MED Declaration of Conformity New Zealand BSMI Certification Taiwan GOST R Certification Licence Russia Belarus Certification Licence Belarus RRL Certification Korea IRAM Certification Argentina Ecology Declaration International Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Regulatory Environmentals and Specifications 9 1 5 Product Regulatory Compliance Markings This Intel server chassi
137. shall have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to them This document contains information on products in the design phase of development Do not finalize a design with this information Revised information will be published when the product is available Verify with your local sales office that you have the latest datasheet before finalizing a design The Intel Entry Server Chassis SC5299 E may contain design defects or errors known as errata which may cause the product to deviate from published specifications Current characterized errata are available on request Intel Corporation server baseboards contain a number of high density VLSI and power delivery components that need adequate airflow to cool Intel s own chassis are designed and tested to meet the intended thermal requirements of these components when the fully integrated system is used together It is the responsibility of the system integrator that chooses not to use Intel developed server building blocks to consult vendor datasheets and operating parameters to determine the amount of air flow required for their specific application and environmental conditions Intel Corporation cannot be held responsible if components fail or the server board does not operate correctly when used outside any of their published operating or non operating limits Intel Pentium Itanium and Xeon are trademarks or registered trademarks of Intel C
138. sseeessseeseeeeeeeeseeeseeeeeeeeeeaeeesneeeeeenseneneaes 137 GOSS EE 138 Revision 3 1 vii Intel order number D37594 005 List of Figures Intel Entry Server Chassis SC5299 E TPS List of Figures Figure 1 Front Closed Chassis View of Intel Entry Server Chassis SGCB39ogE 3 Figure 2 Rear Closed Chassis View of Intel Entry Server Chassis SC5299 E cccccseeeeeee 4 Figure 3 Front Internal Chassis View of Intel Entry Server Chassis SC5299 E DP WS BRP CONMMIQUEATION SHOWIN EE EE 5 Figure 4 Rear Internal Chassis View of Intel Entry Server Chassis SC5299 E with Optional FIOt Swap Drive Bay cated tesa ieii RET glee aa EEEE A AEE RAAR EAE niger meee 5 Figure Ss ATX 2 2 VO ApSMUre Eege EES ereE 6 Figure 6 Mechanical Drawing for Power Supply Enclosure s ssessssnesssssenessnnresssrrrnsrrrerrrsrrrrseet 9 Figure 7 Output Cable Harness for 420 W Power Supply sssssessssrenesseresssrrrrssrrrnnrsrnnressrrrnnee 11 Figure 8 Output Voltage TMG see EEE ee che 20 Figure 9 Mechanical Drawing for Power Supply Enclosure ssssssssssssseneessrrrrsserrnnernnrsssrrrneee 25 Figure 10 System Airflow Impedance AEN 26 Figure 11 Output Voltage Timing stew antes Sas Sede 40 Figure 12 Turn On Off Timing Power Supply Gonale 41 Figure 13 Output Voltage Timing GE 55 Figure 14 Mechanical Drawing for Dual 1 1 Configuration Power Supply Enclosure 63 Figure 15 Output Voltage Timing cee a era ee eed ct ee eae ees ne eta
139. start for its outputs without overstress of the AC line or any power supply components at any specified AC line or load conditions There is no requirement for rise time on the 5VSB but the turn on off is monotonic 2 4 4 Protection Circuits Protection circuits inside the cage and the power supply cause the power supply s main 12V output to shut down thereby forcing the remaining three outputs on the cage to shut down If the power supply latches off due to a protection circuit tripping an AC cycle OFF for 15 sec min and a PSON cycle HIGH for 1 second will reset the power supply and the PDB 2 4 4 1 Over current Protection OCP 240VA Protection Each DC DC converter output on the cage has individual OCP circuits The PS cage combo will shutdown and latch off after an over current condition occurs This latch is cleared by toggling the PSON signal or by an AC power interruption The values are measured at the PDB harness connectors The DC DC converters are not damaged from repeated power cycling in this condition The 12V output from the power supply is divided on the PDB into 5 channels and each is limited to 240VA of power except for 12V5 12V5 is not user accessible There are current sensors and limit circuits available to shut down the entire PS PDB combo if the limit is exceeded The over current limits are listed in the following table Table 91 Over current Protection Limits 240VA Protection Output Voltage MIN OCP Trip Limit
140. stor internal to the power supply 58 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Table 67 PSON Signal Characteristic Signal Type Accepts an open collector drain input from the system Pull up to VSB located in power supply PSON Low PSON High or Open Logic level low power supply ON Logic level high power supply OFF Source current Vpson low 2 3 5 2 PSKill The purpose of the PSKill pin is to allow for hot swapping of the power supply The PSKill pin on the power supply is shorter than the other signal pins When a power supply is operating in parallel with other power supplies and then extracted from the system the PSKill pin will quickly turn off the power supply and prevent arcing of the DC output contacts Tpgxi Shown in the following table is the minimum time delay from the PSKill pin un mating to when the power pins un mate The power supply must discharge its output inductor within this time from the un mating of the PSKill pin When the PSKill signal pin is not pulled down or left open power supply is extracted from the system the power supply will shut down regardless of the condition of the PSON signal The mating pin of this signal in the system should be tied to ground Internal to the power supply the PSKill pin should be connected to a standby voltage through a pull up resistor Upon receiving a LOW state signal at the PSKill pin the power s
141. t Contact Amp 170204 1 contact or equivalent Table 107 P5 Floppy Power Connector Pin Signal 22 AWG Color 1 5VDC Red 2 COM Black 3 COM Black 4 4 12V4 Green 2 5 6 9 Right angle SATA Power Connector P12 Connector housing JWT F6002HSO 5P 18 or equivalent Table 108 P12 Right angle SATA Power Connector Pin Signal 18 AWG Color 1 3 3V Orange 2 COM Black 3 5VDC Red 4 COM Black 5 12V4 Green 2 5 6 10 SATA Power Connector P13 Connector housing JWT A3811HO00 5P or equivalent Contact JWT A3811TOP OD or equivalent 88 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Table 109 P13 SATA Power Connector Pin Signal 18 AWG Color 1 3 3V Orange 2 COM Black 3 5VDC Red 4 COM Black 5 12V4 Green 2 5 7 AC Input Requirements 2 5 7 1 Power Factor Correction The power supply incorporates a power factor correction circuit The power supply is tested as described in EN 61000 3 2 Electromagnetic Compatibility EMC Part 3 Limits Section 2 Limits for harmonic current emissions and meets the harmonic current emissions limits specified for ITE equipment The power supply is tested as described in JEIDA MITI Guideline for Suppression of High Harmonics in Appliances and General Use Equipment and meets the harmonic current emissions limits specified for ITE equipment
142. t should be no more than the specified maximum input current The peak inrush current is less than the ratings of its critical components including input fuse bulk rectifiers and surge limiting device The power supply must meet the inrush requirements for any rated AC voltage during turn on at any phase of AC voltage during a single cycle AC dropout condition as well as upon recovery after AC dropout of any duration and over the specified temperature range Top It is acceptable that AC line inrush current may reach up to 70A peak for up to 1 ms 30 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 2 2 8 AC Line Isolation Requirements The power supply meets all safety agency requirements for dielectric strength Transformers isolation between primary and secondary windings complies with the 3000Vac 4242Vdc dielectric strength criteria In addition the insulation system complies with reinforced insulation per safety standard IEC 950 Separation between the primary and secondary circuits and primary to ground circuits complies with the IEC 950 spacing requirements 2 2 2 9 AC Line Leakage Current The maximum leakage current to ground for each power supply is 3 5mA when tested at 240VAC 2 2 2 10 AC Line Fuse The power supply has a single line fuse on the line hot wire of the AC input The line fusing is acceptable for all safety agency requirements The input fuse is
143. tel Entry Server Chassis SC5299 E TPS V out 10 V out V3 H Lo Tvout_off lt Tyout_rise piam Tvout_on TP02313 Figure 11 Output Voltage Timing Table 45 Turn On Off Timing Top en gelen Delay from AC being applied to 5VSB being within 1500 msec regulation Tac_on_delay Delay from AC being applied to all output voltages being 2500 msec within regulation Tvout_holdup a all output voltages stay within regulation after loss of a WE msec AC T pwok_holdup Delay from loss of AC to de assertion of PWOK a Ir msec pson_on_delay Delay from PSON active to output voltages within regulation 400 msec limits pson_pwok Delay from PSON deactive to PWOK being de asserted Ia msec Tpwok_on Delay from output voltages within regulation limits to PWOK 100 asserted at turn on Tpwok_off Delay from PWOK de asserted to output voltages 3 3V 5V 12V 12V dropping out of regulation limits Tech Jon Duration of PWOK being in the de asserted state during an 100 off on cycle using AC or the PSON signal 40 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Tsb vout Delay from 5VSB being in regulation to O Ps being in msec ne 50 1000 regulation at AC turn on Ts5VSB_holdup Time the 5VSB output voltage stays within regulation after 70 msec loss of AC AC Input k Let beiden i
144. tem Intel Entry Server Chassis SC5299 E TPS 2 1 2 Airflow and Temperature The power supply operates within all specified limits over the Top temperature range The average air temperature difference Tps from the inlet to the outlet of the power supply does not exceed 20C All airflow passes through the power supply and not over the exterior surfaces of the power supply Table 2 Environmental Requirements Item Description Min Specification Units Top Operating temperature range 0 50 C Thon op Non operating temperature range 40 70 C Altitude Maximum operating altitude 1500 m The power supply meets UL enclosure requirements for temperature rise limits All sides of the power supply with the exception of the air exhaust side are classified as Handle knobs grips etc held for short periods of time only 2 1 3 Output Cable Harness Listed or recognized component appliance wiring material AVLV2 CN rated min 105 C 300Vdc is used for all output wiring 10 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS H A 428 0 12 0 P1 22 546 je 63546 ED S PN 24 mm IJ oam se Di mm wv C DE Ki DI pret E EI sv Ei Di memm uge C 5v e Gi pt svss C j n c u
145. the AC input The line fusing is acceptable for all safety agency requirements The input fuse is a slow blow type AC in rush current does not cause the AC line fuse to blow under any conditions All protection circuits in the power supply do not cause the AC fuse to blow unless a component in the power supply has failed This includes DC output load short conditions 2 5 7 7 AC In rush AC line in rush current does not exceed 50A peak cold start at 20 degrees C and no component is damages at hot start for up to one quarter of the AC cycle after which the input current is no more than the specified maximum input current listed in Revision 3 1 91 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 110 The peak in rush current is less than the ratings of its critical components including input fuse bulk rectifiers and surge limiting device The power supply meets the in rush requirements for any rated AC voltage during turn on at any phase of AC voltage or during a single cycle AC dropout condition as well as upon recovery after AC dropout of any duration and over the specified temperature range Top 2 5 7 8 Susceptibility Requirements The power supply meets the following electrical immunity requirements when connected to a cage with an external EMI filter that meets the criteria defined in the SSI document EPS Power Supply Specification Table 113 Performance Criteria Le
146. the left attach behind the access cover thereby preventing accidental removal of the bezel The bezel can only be removed by first removing the server access cover This provides additional security to the hard drive and peripheral bay area The bezel also includes a key locking door that covers the drive cage area and allows access to hot swap drives when a hot swap drive bay is installed The peripheral bays are covered with plastic snap in cosmetic pieces that must be removed to add peripherals to the system Control panel buttons and lights are located along the right side of the peripheral bays 1 8 Peripheral Bays Two 5 25 in half height drive bays are available for CD DVD ROM or tape drives as well as one 3 5 inch removable media drive bay Drive installation is tool less and requires no screws Revision 3 1 7 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 Power Sub system 2 1 420 Watt Power Supply The 420 W power supply specification defines a non redundant power supply that supports DP Intel Xeon entry server systems The 420 W power supply has 6 outputs 3 3V 5V 12V1 12V2 12V and 5VSB The form factor fits into a pedestal system and provides a wire harness output to the system An IEC connector is provided on the external face for AC input to the power supply The power supply incorporates a Power Factor Correction circuit The power supply is tested as described in EN 6
147. timing requirements for power supply operation are as follows The output voltages must rise from 10 to within regulation limits Tvout rise within 2 to 20ms except for 5VSB which is allowed to rise from 1 0 to 70ms The 3 3V 5V and 12V output voltages should start to rise approximately at the same time All outputs must rise monotonically The 5V output needs to be greater than the 3 3V output during any point of the voltage rise The 5V output must never be greater than the 3 3V output by more than 2 25V Each output voltage shall reach regulation within 50ms Tyout on Of each other during turn on of the power supply Each output voltage shall fall out of regulation within 400msec Tout of Of each other during turn off The following figure shows the timing requirements for the power supply being turned on and off via the AC input with PSON held low and the PSON signal with the AC input applied Revision 3 1 19 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 16 Output Voltage Timing Item Description Minimum Maximum Units Tyout rise Output voltage rise time from each main output 2 0 20 msec Tyout_on All main outputs must be within regulation of each 50 msec other within this time T vom op All main outputs must leave regulation within this 400 msec time KEE be v2 nc N eo O O OS V3 k gt j Tt rise lt Tat op t Tvout_
148. ts the EN61000 4 5 directive and any additional requirements in IEC1000 4 5 1995 and the Level 3 requirements for surge withstand capability with the following conditions and exception These input transients do not cause any out of regulation conditions such as overshoot and undershoot nor do they cause any nuisance trips of any of the power supply protection circuits The surge withstand test must not produce damage to the power supply The supply meets surge withstand test conditions under maximum and minimum DC output load conditions 2 2 2 5 AC Line Dropout Holdup An AC line dropout is defined to be when the AC input drops to OVAC at any phase of the AC line for any length of time During an AC dropout the power supply meets dynamic voltage regulation requirements An AC line dropout of any duration does not cause tripping of control signals or protection circuits If the AC dropout lasts longer than the hold up time the power supply will recover and meet all turn on requirements The power supply meets the AC dropout requirement over rated AC voltages frequencies A dropout of the AC line for any duration does not cause damage to the power supply Revision 3 1 29 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 27 AC Line Dropout Holdup Output Wattage Loading Holdup Time 412 5 W 75 20 msec 550 W 100 12 msec 2 2 2 5 1 AC Line 5VSB Holdup The 5VSB o
149. ub system 2 2 5 3 Over temperature Protection OTP The power supply is protected against over temperature conditions caused by loss of fan cooling or excessive ambient temperature In an OTP condition the power supply unit will shut down When the power supply temperature drops to within specified limits the power supply will restore power automatically while the 5VSB remains always on The OTP circuit must have built in hysteresis such that the power supply will not oscillate on and off due to a temperature recovering condition The OTP trip level has a minimum of 4 C of ambient temperature hysteresis 2 2 6 Control and Indicator Functions The following sections define the input and output signals from the power supply Signals that can be defined as low true use the following convention signal low true 2 2 6 1 PSON Input Signal The PSON signal is required to remotely turn on off the power supply PSON is an active low signal that turns on the 3 3V 5V 12V and 12V power rails When this signal is not pulled low by the system or left open the outputs except the 5VSB turn off This signal is pulled to a standby voltage by a pull up resistor internal to the power supply Table 48 PSON Signal Characteristic Signal Type Accepts an open collector drain input from the system Pull up to 5V located in power supply PSON High or Open Logic level low power supply ON Logic level high power supply OFF 2 0V Sou
150. ub system Intel Entry Server Chassis SC5299 E TPS Connector Upper Side Pin No Pin No Bottom Side Top Bottom 12V Return 27 28 12V Return 12V Return 29 30 12V Return 12V Return 31 32 12V Return 12V Return 33 34 12V Return 12V Return 35 36 12V Return 5VSB 37 38 AO SDA 39 40 12V Sharing PS_KILL 41 42 POK PS_ON_CTL 43 44 PS_Present FAN_TACH 45 46 VIN_GOOD_OUT SCL 47 48 OVER_TEMP Signals that can be defined as low true or high true use the following convention Signal low true Reserved pins are reserved for future use 2 3 3 2 Grounding The ground of the pins of the power supply output connector provide the power return path The output connector ground pins are connected to safety ground power supply enclosure A reliable protective earth ground is provided on the power supply All secondary circuits are connected to protective earth ground Resistance of the ground returns to chassis do not exceed 1 0m This path may be used to carry DC current 2 3 3 3 Remote Sense No remote sense and remote sense return signal is required on the 650 W power supply 2 3 3 4 Output Power Currents The following table defines power and current ratings for the 650 W continuous 720 W pk power supply in a 1 0 or 1 1 redundant configuration The combined output power of both outputs does not exceed the rated output power The power supply meets both static and dynamic voltag
151. upply will be allowed to turn on via the PSON signal A logic LOW on this pin by itself should not turn on the power outputs Revision 3 1 59 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS Table 68 PSKILL Signal Characteristics Signal Type Input Signal to Supply Accepts a ground input from the system Pull up to VSB located in the power supply PSKILL Low PSON Low ON PSKILL Open PSON Low or Open PSKILL Low PSON Open Logic level low power supply ON 1 0V Logic level high power supply OFF d 5 25V Source current Vpskill low Pe 4mA Delay from PSKILL High to power supply 100 s turned off Tpsxit 1 a Tpgxi is the time from the PSKill signal de asserting HIGH to the power supply s output inductor discharging 2 3 5 3 PWOK Power OK Output Signal PWOK is a power OK signal and is pulled HIGH by the power supply to indicate that all the outputs are within the regulation limits of the power supply When any output voltage falls below regulation limits or when AC power has been removed for a time sufficiently long so that power supply operation is no longer guaranteed PWOK will be de asserted to a LOW state The start of the PWOK delay time is inhibited as long as any power supply output is in current limit 60 Table 69 PWOK Signal Characteristics Signal Type Open collector drain output from power supply Pull up to VSB located in system PWOK
152. ution Board PDB This specification defines the cage for the ERP12V 650 W 1 1 redundant power supply The cage is designed to plug directly to the output connector of the power supply ies and contains three DC DC power converters to produce other required voltages 3 3VDC 5VDC and 12VDC along with additional 12V rail 240VA protection and a FRU EEPROM 62 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS 2 4 1 Mechanical Overview 165 00 260 003 Power Sub system 0 50 10 4 70 1 40 00 0 10 Het Et 202020202020209 DEE GE GE T ei e CH CEET O Ge ee Ee D Q Q Q Q Q Q e Q Q SS Q Q Q Q di Q Q di so so Q 63 80 0 10 4Q 00 0 10 T i J e A ANNE Je OOOO Qi OOO000 Q CH CH ISSCC OOOO O00 OOOO 0000 Q OOOO CH Ieieieieieie Q OOOO OO CH eieieieieie S Q SALE Qi OOOO a E CH eieieieiet Q OOOOOO Q OOOO Q O00000 Qi eieieieiet Q O00000 Qi eieieieiet Q O00000 Qi OOOO Q OOOO OO Qi LOSSIS Q OOOO NW SE Qi DOC 63 80 0 10 Ke OOD Oo an CC 89 20 86 00 0 50 a lt LI CH O Q Q Qi Oi Qi Q Qi Q Qi Q Qi Q Qi Q Qi S Qi Qi Qi Oi ei Qi iO Qi Oi Qi
153. utput voltages 3 3V 5V 12V1 12V2 12V3 12V4 12V and 5VSB The power supply uses remote sense to regulate out drops in the system for the 3 3V 5V and 12V1 outputs The 12V1 12V2 12V3 2V4 12V and 5VSB outputs only use remote sense referenced to the ReturnS signal The remote sense input impedance to the power supply is greater than 200 This is the value of the resistor connecting the remote sense to the output voltage internal to the power supply Remote sense is able to regulate out a minimum of a 200mV drop The remote sense return ReturnS is able to regulate out a minimum of a 200mV drop in the power ground return The current in any remote sense line is less than 5mA to prevent voltage sensing errors 94 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system The power supply operates within specification over the full range of voltage drops from the power supply s output connector to the remote sense points 2 5 8 3 Output Power Currents The following table defines the power and current ratings for the 670 W power supply The combined output power of all outputs does not exceed the rated output power The power supply meets both static and dynamic voltage regulation requirements for the minimum loading conditions Table 116 Load Ratings Voltage Minimum Continuous Maximum Continuous Peak Load 3 3V 1 0A 24 A 5V 2 0 A
154. utput voltage stays in regulation under its full load static or dynamic during an AC dropout of 70 ms min 5VSB holdup time whether the power supply is in the ON or OFF state PSON asserted or de asserted 2 2 2 6 Power Recovery The power supply recovers automatically after an AC power failure AC power failure is defined to be any loss of AC power that exceeds the dropout criteria 2 2 2 6 1 Voltage Brown Out The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 11 1995 test standard and performance criteria C defined in Annex B of CISPR 24 In addition the power supply meets the following Intel Requirement A continuous input voltage below the nominal input range shall not damage the power supply or cause overstress to any power supply component The power supply must be able to return to normal power up state after a brownout condition Maximum input current under a continuous brownout shall not blow the fuse The power supply should tolerate a 3min ramp from 90VAC voltage to OVAC after the components have reached a steady state condition 2 2 2 6 2 Voltage Interruptions The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 11 1995 and the level 3 test standard and performance criteria C defined in Annex B of CISPR 24 2 2 2 7 AC Line Inrush AC line inrush current does not exceed 50A peak for up to one quarter of the AC cycle after which the input curren
155. vel Description A The apparatus shall continue to operate as intended No degradation of performance B The apparatus shall continue to operate as intended No degradationof performance beyond spec limits C Temporary loss of function is allowed provided the function is self recoverable or can be restored by the operation of the controls 2 5 7 8 1 Electrostatic Discharge Susceptibility The power supply complies with the limits defined in EN 55024 1998 using the IEC 61000 4 2 1995 test standard and performance criteria B defined in Annex B of CISPR 24 2 5 7 8 2 Fast Transient Burst The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 4 1995 test standard and performance criteria B defined in Annex B of CISPR 24 2 5 7 8 3 Radiated Immunity The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 3 1995 test standard and performance criteria A defined in Annex B of CISPR 24 2 5 7 8 4 Surge Immunity The power supply is tested with the system for immunity to AC Ringwave and AC Unidirectional wave both up to 2kV per EN 55024 1998 EN 61000 4 5 1995 and ANSI C62 45 1992 The pass criteria include no unsafe operation is allowed under any condition all power supply output voltage levels must stay within proper spec levels no change in operating state or loss of data during and after the test profile no component damage under any condition 92 Re
156. ver Chassis C5299 E TPS Peripheral and Hard Drive Support Table 132 LED Function Status LED Definition GREEN ON HDD Activity YELLOW ON HDD Fail YELLOW Blinking Rebuild in progress 4 3 2 7 SATA Drive Connectors The 6HDD SATA HSBP provides six 22 pin SATA connectors for hot swap drives supporting a 1 5GHz transfer rate The following table defines the pin out of the 7 pin SATA Control Connector J1 J6 Table 133 7 Pin SATA Connector Pin out Connector Contact Signal Name Number i GND 2 H_TXPn 3 H_TXNn 4 GND 5 H_RXNn 6 H_RXPn y GND The following table defines the pin out of the 22 pin SATA Drive Connector J7 J12 Table 134 22 Pin SATA Connector Pin out Connector Contact Signal Name Number 1 SATA HDD Present 2 H_TXPn 3 H_TXNn 4 GND 5 H_RXNn Revision3 1 02000 AB Intel order number D37594 005 Peripheral and Hard Drive Support Intel Entry Server Chassis SC5299 E TPS Connector Contact Signal Name Number H_RXPn GND 3 3V NC 3 3V NC fs Eo eo fe 4 3 2 8 Power Connectors The 6HDD SATA HSBP provides two standard 4 pin hard drive power connectors The following table defines the pin out of the 4 pin power connectors JP4 and JP5 Table 135 Power Connector Pin out Pin Signal 1 12V 2 GND 3 GND 4 5V ge Revision 3 1 Intel order num
157. vision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system The power supply complies with the limits defined in EN55024 1998 using the IEC 61000 4 5 1995 test standard and performance criteria B defined in Annex B of CISPR 24 2 5 7 9 AC Line Leakage Current The maximum leakage current to ground for each power supply is 3 5mA when tested at 240VAC 2 5 7 10 AC Line Transient Specification AC line transient conditions are defined as sag and surge conditions Sag conditions are also commonly referred to as brownout these conditions will be defined as the AC line voltage dropping below nominal voltage conditions Surge will be defined to refer to conditions when the AC line voltage rises above nominal voltage The power supply meets the requirements under the following AC line sag and surge conditions Table 114 AC Line Sag Transient Performance Duration Sag Operating AC Voltage Line Frequency Performance Criteria Continuous 10 Nominal AC Voltage 50 60Hz No loss of function or performance ranges 0 to 1 AC 95 Nominal AC Voltage 50 60Hz No loss of function or performance cycle ranges gt 1 AC cycle gt 30 Nominal AC Voltage 50 60Hz Loss of function acceptable self ranges recoverable Table 115 AC Line Surge Transient Performance Duration Surge Operating AC Voltage Line Frequency Performance Criteri
158. vm pm omen awe once veer vm fae omen awe once weer vm ow foen fre feo fom e rose fe ars sw 56 vm 2 5 8 6 Dynamic Loading The output voltages remain within limits specified for the step loading and capacitive loading as shown in the following table The load transient repetition rate is tested between 50 Hz and 5 kHz at duty cycles ranging from 10 90 The load transient repetition rate is only a test specification The step load may occur anywhere between the MIN load and MAX load conditions Table 118 Transient Load Requirements Step Load Size Load Slew Rate Test Capacitive Load 7 0 0 25 A sec 4700 F 5V 7 0A 0 25 A sec 1000 F 25A 0 25 A sec 4700 F 5VSB 0 25 A sec 20 F 1 Step loads on each 12V output may happen simultaneously 2 5 8 7 Capactive Loading The power supply is stable and meets all requirements with the following capacitive loading ranges Table 119 Capacitive Loading Conditions Output MIN MAX Units 3 3V 250 6800 F 96 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Output MIN MAX Units 5V 400 4700 F 12V 1 2 3 4 500 each 11 000 F 12V 1 350 F 5VSB 20 350 F Power Sub system 2 5 8 8 Closed Loop Stability The power supply is unconditionally stable under all line load transient load conditions including capacitive load ranges A minimum of 45 degrees phase margin and
159. wrap within 12mm of the power supply cage 4 Mark reference designator on each connector 5 Tie wrap each harness at approximately mid point 84 Figure 18 Output Harness for 670 W Power Supply Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system 2 5 6 Power Connectors 2 5 6 1 Baseboard Power Connector P1 Connector housing 24 Pin Molex Mini Fit Jr 39 01 2245 or equivalent Contact Molex Mini Fit HCS Female Crimp 44476 or equivalent Table 100 P1 Baseboard Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 3 3V RS Orange 24AWG Blue 2 vasvoo com e COM RS Black 24 AWG COM Black e lvo ra Tu foom Black 7 COM Black Red 8 PWR OK Gray 24 AWG Red 9 5VSB Purple Black 12 3 3 VDC Orange 5V Remote Sense Double Crimped Revision 3 1 85 Intel order number D37594 005 Power Sub system Intel Entry Server Chassis SC5299 E TPS 2 5 6 2 Processor Power Connector P2 Connector housing 8 Pin Molex 39 01 2080 or equivalent Contact Molex 44476 1111 or equivalent Table 101 P2 Processor Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color Oooo p pm f 2 5 6 3 Power Signal Connector P14 Connector housing 5 Pin Molex 50 57 9405 or equivalent Contacts Molex 16 02 0087 or equivalent Table 102 Power Signal Connector Pin 1 2 4 5 86 Signal 24 AWG Color Revision
160. xcept the 5VSB turn off This signal is pulled to a standby voltage by a pull up resistor internal to the power supply 22 Revision 3 1 Intel order number D37594 005 Intel Entry Server Chassis SC5299 E TPS Power Sub system Table 19 PSON Signal Characteristic Signal Type Accepts an open collector drain input from the system Pull up to 5V located in power supply PSON Low ON PSON High or Open Logic level low power supply ON 1 0V Logic level high power supply OFF S Source current Vpson low KEES 4mA 2 1 6 5 PWOK Power OK Output Signal PWOK is a power OK signal and is pulled HIGH by the power supply to indicate that all the outputs are within the regulation limits of the power supply When any output voltage falls below regulation limits or when AC power has been removed for a time sufficiently long that the power supply operation is no longer guaranteed PWOK will be de asserted to a LOW state The start of the PWOK delay time is inhibited as long as any power supply output is within current limit Table 20 PWOK Signal Characteristics Signal Type Open collector drain output from power supply Pull up to VSB located in system PWOK High Power OK PWOK Low Power Not OK MAX Logic level low voltage Isink 4mA 0 4V Logic level high voltage lsource 200 A g Sink current PWOK low DEE 4mA Source current PWOK high LL 2mA PWOK rise and fall time PL we Power down delay T pwok off ims Revisi
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