Datasheet

ManualsBrandsIntel Manualschassis componentsSC5299UPNA

Intel

Entry Server Chassis SC5299-E

Technical Product Specification

Intel order number D37594-005

Revision 3.1

May 2010

Enterprise Platforms and Services Marketing

Summary of content (154 pages)

PAGE 1
Intel® Entry Server Chassis SC5299-E Technical Product Specification Intel order number D37594-005 Revision 3.
PAGE 2
Intel® Entry Server Chassis SC5299-E TPS Revision History Revision History Date Revision Number Modifications April 2006 1.0 Initial release. December 2006 1.1 Changed “Country” to “Region” in Section 9.1.5. July 2007 2.0 Added SC5299UP to SC5299-E family. November 2007 2.1 Added BTU information to SC5299-E family. December 2009 3.0 Updated section 1.1 and section 8. May 2010 3.1 Deleted CCC and CNCA content. Revision 3.
PAGE 3
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.
PAGE 4
Intel® Entry Server Chassis SC5299-E TPS Table of Contents Table of Contents 1. Product Overview .................................................................................................................. 1 1.1 Intel® Entry Server Chassis SC5299-E Design Features ............................................... 1 1.2 Chassis Views ........................................................................................................... 3 1.3 System Color........................................
PAGE 5
Intel® Entry Server Chassis SC5299-E TPS 2.3.6 2.4 Table of Contents SMBus Monitoring Interface..................................................................................... 61 650-W Power Distribution Board (PDB) .................................................................... 62 2.4.1 Mechanical Overview............................................................................................... 63 2.4.2 DC Output Specification ..........................................................
PAGE 6
Table of Contents Intel® Entry Server Chassis SC5299-E TPS 7. System Interconnection .................................................................................................... 124 7.1 Signal Definitions .................................................................................................. 124 7.2 Chassis Internal Cables .......................................................................................... 124 7.2.1 Control Panel Cable.........................................
PAGE 7
Intel® Entry Server Chassis SC5299-E TPS 9.10 Table of Contents Calculated MTBF.................................................................................................... 135 Appendix A: Integration and Usage Tips ................................................................................. 137 Glossary .................................................................................................................................... 138 Revision 3.
PAGE 8
List of Figures Intel® Entry Server Chassis SC5299-E TPS List of Figures Figure 1. Front Closed Chassis View of Intel® Entry Server Chassis SC5299-E.......................... 3 Figure 2. Rear Closed Chassis View of Intel® Entry Server Chassis SC5299-E .......................... 4 Figure 3. Front Internal Chassis View of Intel® Entry Server Chassis SC5299-E(DP/WS/BRP configuration shown) ..............................................................................................................
PAGE 9
Intel® Entry Server Chassis SC5299-E TPS List of Figures Figure 29. Local Control Panel Components ............................................................................ 122 Revision 3.
PAGE 10
List of Tables Intel® Entry Server Chassis SC5299-E TPS List of Tables Table 1. Intel® Entry Server Chassis SC5299-E UP, DP, BRP, and WS Features ....................... 2 Table 2. Environmental Requirements........................................................................................ 10 Table 3. Cable Lengths............................................................................................................... 12 Table 4. P1 Baseboard Power Connector ....................................
PAGE 11
Intel® Entry Server Chassis SC5299-E TPS List of Tables Table 33. P3, P4, P6, P7, P8, P9 Peripheral Power Connectors................................................ 33 Table 34. P5 Floppy Power Connector ....................................................................................... 34 Table 35. P10 SATA Power Connectors..................................................................................... 34 Table 36. P11 SATA Power Connectors........................................................
PAGE 12
List of Tables Intel® Entry Server Chassis SC5299-E TPS Table 68. PSKILL Signal Characteristics .................................................................................... 60 Table 69. PWOK Signal Characteristics ..................................................................................... 60 Table 70. LED Indicators ............................................................................................................ 61 Table 71. SMBus Device Addressing ............................
PAGE 13
Intel® Entry Server Chassis SC5299-E TPS List of Tables Table 103. 12V4 Power Connector............................................................................................. 87 Table 104. PCI Express Connector ............................................................................................ 87 Table 105. Peripheral Power Connectors ................................................................................... 87 Table 106. P7 Right-angle Peripheral Power Connector ..................
PAGE 14
List of Tables Intel® Entry Server Chassis SC5299-E TPS Table 138. SATA Hot-swap Backplane Connector Specifications............................................ 118 Table 139. Control Panel LED Functions.................................................................................. 121 Table 140. IPMI Header............................................................................................................ 123 Table 141. System Office Environment Summary .........................................
PAGE 15
Intel® Entry Server Chassis SC5299-E TPS List of Tables Revision 3.
PAGE 16
Intel® Entry Server Chassis SC5299-E TPS 1. Product Overview 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.
PAGE 17
Intel® Entry Server Chassis SC5299-E TPS Product Overview 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://www.intel.com/p/en_US/support/highlights/server/sc5299-e.
PAGE 18
Intel® Entry Server Chassis SC5299-E TPS Configuration SC5299UP Product Overview 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 Pedestal 17.8 in (45.2 cm) x 9.256 in (23.5 cm) x 19 in (48.3 cm) Dimensions Rack 9.256 in (23.5 cm) x 17.6 in (44.7 cm) x 19 in (48.3 cm) 1.2 Chassis Views A B C D E F TP01717 A. B. C. D. E. F.
PAGE 19
Intel® Entry Server Chassis SC5299-E TPS Product Overview A B E C F G H D I J TP00866 A. B. C. D. E. F. G. H. I. J. 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 Figure 2. Rear Closed Chassis View of Intel® Entry Server Chassis SC5299-E Revision 3.
PAGE 20
Intel® Entry Server Chassis SC5299-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 Hotswap Drive Bay Revision 3.
PAGE 21
Intel® Entry Server Chassis SC5299-E TPS Product Overview 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.
PAGE 22
Intel® Entry Server Chassis SC5299-E TPS 1.7 Product Overview 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 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.
PAGE 23
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 24
Intel® Entry Server Chassis SC5299-E TPS 2.1.1 Power Sub-system Mechanical Overview Figure 6. Mechanical Drawing for Power Supply Enclosure Revision 3.
PAGE 25
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 26
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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. Revision 3.
PAGE 27
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 3. Cable Lengths Length To connector # From (mm) No.
PAGE 28
Intel® Entry Server Chassis SC5299-E TPS Pin Signal Power Sub-system 18 AWG Color Pin Signal 18 AWG Color 10 +12V2 White/Blue Stripe 22 +5 VDC Red 11 +12V2 White/Blue Stripe 23 +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.
PAGE 29
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 7. P10 Right-angle SATA Power Connector Pin 2.1.4 Signal 24 AWG Color 1 +3.3V Orange 2 Ground Black 3 +5V Red 4 Ground Black 5 +12V2 Blue/White 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 power supply to go out of specified limits.
PAGE 30
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 dropout 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.
PAGE 31
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 0 to 1 AC cycle 100% Nominal AC Voltage ranges 50/60Hz No loss of function or performance > 1 AC cycle >10% Nominal AC Voltage ranges 50/60Hz Loss of function acceptable, self recoverable Table 10.
PAGE 32
Intel® Entry Server Chassis SC5299-E TPS 2.1.5.3 Power Sub-system 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.
PAGE 33
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 34
Intel® Entry Server Chassis SC5299-E TPS 2.1.5.7 Power Sub-system Capacitive Loading The power supply is stable and meets all requirements with the following capacitive loading ranges. Table 14. Capacitive Loading Conditions 2.1.5.8 Output MIN MAX Units +3.
PAGE 35
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 16. Output Voltage Timing Item Description Tvout_rise Output voltage rise time from each main output. Tvout_on T vout_off Minimum Maximum 2.0 Units 20 msec All main outputs must be within regulation of each other within this time. 50 msec All main outputs must leave regulation within this time. 400 msec Vout 10% Vout V1 V2 V3 V4 Tvout rise Tvout_off Tvout_on Figure 8. Output Voltage Timing Table 17.
PAGE 36
Intel® Entry Server Chassis SC5299-E TPS Item Power Sub-system Description Minimum Tpwok_holdup Delay from loss of AC to de-assertion of PWOK. 20 Tpson_on_delay Delay from PSON# active to output voltages within regulation limits. 5 Tpson_pwok Delay from PSON# deactive to PWOK being de-asserted. Tpwok_on Delay from output voltages within regulation limits to PWOK asserted at turn on. 100 Tpwok_off Delay from PWOK de-asserted to output voltages (3.
PAGE 37
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 38
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 OFF Logic level low (power supply ON) Logic level high (power supply OFF) MIN MAX 0V 1.0V 2.0V 5.25V Source current, Vpson = low 4mA Power up delay: Tpson_on_delay PWOK delay: T pson_pwok 2.1.6.
PAGE 39
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 40
Intel® Entry Server Chassis SC5299-E TPS 2.2.1 Power Sub-system Mechanical Outline 55 mm 12 mm 130 mm 11 mm 15 mm 110 mm 140 mm Airflow Up Label Area 146 mm 97.2 mm 150 mm 86 mm 138 mm 6x32 THREADED HOLE (4x) Warning Label 74 mm 16 mm AC Inlet 6 mm 114 mm 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.
PAGE 41
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system System Pressure (in H2O) System Flow Impedance 0.6 0.5 0.4 0.3 0.2 0.1 0 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.
PAGE 42
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 Tnon-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 exhaust side, must be classified as “Handle, knobs, grips, etc.
PAGE 43
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 24. 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 0 to 1 AC cycle 100% Nominal AC Voltage ranges 50/60Hz No loss of function or performance > 1 AC cycle >10% Nominal AC voltage ranges 50/60Hz Loss of function acceptable, self recoverable Table 25.
PAGE 44
Intel® Entry Server Chassis SC5299-E TPS 2.2.2.3.2 Power Sub-system Fast Transient/Burst The power supply complies with the limits defined in EN55024: 1998 using the IEC 61000-44:1995 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 61000-43:1995 and the level 3 test standard and performance criteria A defined in Annex B of CISPR 24. 2.2.2.3.
PAGE 45
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 27. AC Line Dropout/Holdup Output Wattage 2.2.2.5.1 Loading Holdup Time 412.5 W 75% 20 msec 550 W 100% 12 msec AC Line 5VSB Holdup The 5VSB output 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.
PAGE 46
Intel® Entry Server Chassis SC5299-E TPS 2.2.2.8 Power Sub-system 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.
PAGE 47
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 29.
PAGE 48
Intel® Entry Server Chassis SC5299-E TPS Pin 12 Signal Power Sub-system 18 AWG Color +3.3 VDC Pin Orange 24 Signal 18 AWG Color 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.
PAGE 49
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 +5VDC Red 2 COM Black 3 COM Black 4 +12V2 Green 2.2.4.7 P10 Right-angle SATA Power Connector Connector housing: JWT* F6002HS0-5P-18 or equivalent Table 35. P10 SATA Power Connectors Pin Signal 18 AWG Color 1 +3.
PAGE 50
Intel® Entry Server Chassis SC5299-E TPS Pin Power Sub-system Signal 18 AWG Color 4 COM Black 5 +12V2 Green 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.
PAGE 51
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 38. Power On Load Ratings Voltage Minimum Continuous Maximum Continuous +3.3 V 0A 9A +5 V 0A 7A +12 V1 0A 16 A +12 V2 0.1 A 5A -12 V 0A 0.5 A +5 VSB 0.1 A 3.0 A Peak 3.5 A Table 39. Power On Voltage Regulation Limits 2.2.4.11 Parameter Tolerance MIN NOM MAX Units + 3.3V - 10%/+10% +2.97 +3.30 +3.63 Vrms + 5V - 10%/+10% +4.50 +5.00 +5.50 Vrms + 12V1 - 8%/+10% +11.04 +12.00 +13.
PAGE 52
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.
PAGE 53
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Output Step Load Size (see note 2) Load Slew Rate Test Capacitive Load +12V1 25.0A 0.25 A/ sec 2200 F 1,2 +12V2 25.0A 0.25 A/ sec 2200 F 1,2 +5VSB 0.5A 0.25 A/ sec 20 F Notes: 1. 2. 2.2.4.16 Step loads on each 12V output may happen simultaneously. The +12V should be tested with 2200 F evenly split between the two +12V rails.
PAGE 54
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 43. Ripple and Noise 2.2.4.20 +3.3V +5V +12V1/2 -12V +5VSB 50mVp-p 50mVp-p 120mVp-p 120mVp-p 50mVp-p 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.
PAGE 55
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system V out 10% V out V1 V2 V3 V4 Tvout_rise Tvout_off Tvout_on TP02313 Figure 11. Output Voltage Timing Table 45. Turn On/Off Timing Item Description Minimum Maximum Tsb_on_delay Delay from AC being applied to 5VSB being within regulation. 1500 Tac_on_delay Delay from AC being applied to all output voltages being within regulation. 2500 Tvout_holdup Time all output voltages stay within regulation after loss of AC.
PAGE 56
Intel® Entry Server Chassis SC5299-E TPS Item Power Sub-system Description Minimum Tsb_vout Delay from 5VSB being in regulation to O/Ps being in regulation at AC turn on. 50 T5VSB_holdup Time the 5VSB output voltage stays within regulation after loss of AC.
PAGE 57
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 not be damaged from repeated power cycling in this condition.
PAGE 58
Intel® Entry Server Chassis SC5299-E TPS 2.2.5.3 Power Sub-system 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.
PAGE 59
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 49. 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 Logic level low voltage, Isink=4mA Logic level high voltage, Isource=200 A MIN MAX 0V 0.4V 2.4V 5.
PAGE 60
Intel® Entry Server Chassis SC5299-E TPS 2.3 Power Sub-system 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.
PAGE 61
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 50. Acoustic Requirements Operating Conditions Inlet Temperature Condition % of Maximum Loading Condition LwAd (BA) Maximum (1+0 and 1+1) 45 ºC 100% < 6.5 40 C 60% < 5.2 35 C 40% < 4.7 Operating (1+0 and 1+1) Idle (1+0 and 1+1) 2.3.1.3 Temperature Requirements The power supply operates within all specified limits over the Top temperature range described in the following table.
PAGE 62
Intel® Entry Server Chassis SC5299-E TPS 2.3.2.2 Power Sub-system 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.
PAGE 63
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Duration > 1 AC cycle Sag >10% Operating AC Voltage Nominal AC Voltage ranges Line Frequency 50/60Hz Loading 100% Performance Criteria Loss of function acceptable, self recoverable Table 54.
PAGE 64
Intel® Entry Server Chassis SC5299-E TPS 2.3.2.7.1 Power Sub-system 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.
PAGE 65
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 66
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system primary and secondary circuits, and primary to ground circuits, complies with the IEC 950 spacing requirements. 2.3.2.12 Power Factor Correction The power supply incorporates a power factor correction circuit.
PAGE 67
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Connector Upper Side Pin No Top. Pin No.
PAGE 68
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 58. Power Supply Module Load Ratings Voltage 650-W Min 2.3.3.5 Max Peak +12 V 0A 54 A 58 A +5 VSB 0.1 A 3.0 A 3.5 A 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.
PAGE 69
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 +12V +5VSB 2.3.3.9 MIN MAX Units 2000 11,000 F 1 350 F Closed Loop Stability The power supply is unconditionally stable under all line/load/transient load conditions, including capacitive load ranges.
PAGE 70
Intel® Entry Server Chassis SC5299-E TPS 2.3.3.13 Power Sub-system 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.
PAGE 71
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 64. Turn On/Off Timing Item Description Minimum Maximum Tsb_on_delay Delay from AC being applied to 5VSB being within regulation. 1500 Tac_on_delay Delay from AC being applied to all output voltages being within regulation. 2500 Tvout_holdup Time all output voltages stay within regulation after loss of AC.
PAGE 72
Intel® Entry Server Chassis SC5299-E TPS 2.3.3.15 Power Sub-system 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.
PAGE 73
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 74
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 ON PSON# = High or Open OFF MIN Logic level low (power supply ON) Logic level high (power supply OFF) MAX 0V 1.0V 2.0V 5.25V Source current, Vpson = low Power up delay: Tpson_on_delay PWOK delay: T pson_pwok 4mA 5msec 400msec 50msec 2.3.5.
PAGE 75
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 OFF PSKILL = Low, PSON# = Open OFF Logic level low (power supply ON) Logic level high (power supply OFF) MIN MAX 0V 1.0V 2.0V 5.
PAGE 76
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.
PAGE 77
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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: A0 and A1. Table 71. SMBus Device Addressing Reserved for future 2+2 configuration addressing 2.
PAGE 78
Intel® Entry Server Chassis SC5299-E TPS 2.4.1 Power Sub-system Mechanical Overview Figure 14. Mechanical Drawing for Dual (1+1 Configuration) Power Supply Enclosure 2.4.1.1 Airflow Requirements There is no fan in the cage; the cage is cooled by the fan in the power supply module(s) when combined together in the system. 2.4.1.2 Temperature Requirements The PDB operates within all specified limits over the Top temperature range. Table 72.
PAGE 79
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Item 2.4.1.3 Description Tnon-op Non-operating temperature range. Altitude Maximum operating altitude MIN MAX -40 70 Units C 1500 m 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.
PAGE 80
Intel® Entry Server Chassis SC5299-E TPS Connector Power Sub-system Upper Side Pin No Top. Pin No. Bottom Bottom Side +12V Return 35 36 +12V Return 5VSB 37 38 A0 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.
PAGE 81
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 Pin 1* Signal 18 AWG Color Pin Signal 18 AWG Color +3.3VDC Orange 13 +3.3VDC Orange 3.3V RS Orange (24AWG) 14 -12VDC Blue 2 +3.
PAGE 82
Intel® Entry Server Chassis SC5299-E TPS 2.4.2.4 Power Sub-system 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 Pin Signal 18 AWG Color Pin Signal 18 AWG Color 1 COM Black 5 +12V1 White 2 COM Black 6 +12V1 White 3 COM Black 7 +12V2 Brown 4 COM Black 8 +12V2 Brown 2.4.2.
PAGE 83
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 2.4.2.8 Signal 18 AWG Color 1 +12V4 Green 2 COM Black 3 COM Black 4 +5 VDC Red Floppy Power Connector (P5) Connector housing: Amp* 171822-4 or equivalent Contact: Amp 170204-1 contact or equivalent Table 80. Floppy Power Connector Pin 2.
PAGE 84
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 82. SATA Power Connector Pin 2.4.2.11 Signal 18 AWG Color 1 +3.3V Orange 2 COM Black 3 +5VDC Red 4 COM Black 5 +12V4 Green 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 .
PAGE 85
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 +12VDC Input DC/DC Converters +3.
PAGE 86
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 Output Max Step Load Size Max Load Slew Rate Test capacitive Load + 3.3VDC 5.0A 0.25 A/ s 250 F + 5VDC 4.0A 0.25 A/ s 400 F +12VDC (12V1/2/3/4/5) See the Power Supply specification for details. - 12VDC +5VSB 2.4.
PAGE 87
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 0Hz 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.
PAGE 88
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system V out 10% V out V1 V2 V3 V4 Tvout_off Tvout_rise Tvout_on TP02313 Figure 15. Output Voltage Timing Table 90. Turn On/Off Timing Item Description Loading Minimum Maximum Tsb_on_delay Delay from AC being applied to 5VSB being within regulation. 1500 Tac_on_delay Delay from AC being applied to all output voltages being within regulation. 2500 Tvout_holdup Time all output voltages stay within regulation after loss of AC.
PAGE 89
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Item Tpwok_off Description Loading Minimum Maximum Units ms Delay from PWOK de-asserted to output voltags (3.3V, 5V, 12V, -12V) dropping out of regulation limits. 1 Tpwok_low Duration of PWOK being in the de-asserted state during an off/on cycle using AC or the PSON signal. 100 Tsb_vout Delay from 5VSB being in regulation to O/Ps being in regulation at AC turn on.
PAGE 90
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 start for its outputs without overstress of the AC line or any power supply components at any specified AC line or load conditions.
PAGE 91
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 92
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 ON PSON# = High or Open OFF Logic level low (power supply ON) Logic level high (power supply OFF) MIN MAX 0V 1.0V 2.0V 5.25V Source current, Vpson = low Power up delay: Tpson_on_delay 4mA 5msec PWOK delay: T pson_pwok 2.4.5.
PAGE 93
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 94. 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 Logic level low voltage, Isink=4mA Logic level high voltage, Isource=200 A MIN MAX 0V 0.4V 2.4V 5.25V Sink current, PWOK = low 4mA Source current, PWOK = high 2mA PWOK delay: Tpwok_on 100ms PWOK rise and fall time 100 sec Power down delay: T pwok_off 2.
PAGE 94
Intel® Entry Server Chassis SC5299-E TPS 2.4.6 Power Sub-system 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 power’ and I2C Vdd 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.
PAGE 95
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Item Description 240VA monitoring DC/DC failure sensing 2.5 Scaling Indicators for sensing one of the 240VA channels have tripped and shut down the power supplies. Accuracy NA Indicators for sensing a DC/DC failure on the power distribution board.
PAGE 96
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Figure 17. Mechanical Drawing of the 670-W Power Supply Enclosure Revision 3.
PAGE 97
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 Condition % of Maximum Loading Condition LwAd (BA) Maximum 45ºC 100% 6.5 Operating 40 C 60% 4.7 Idle 35 C 40% 4.
PAGE 98
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 Harness Drawing Listed or recognized component appliance wiring material (AVLV2), CN, rated min 105 C, 300VDC is used for all output wiring. Table 99.
PAGE 99
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Notes: 1. All dimensions are in mm. 2. All tolerances are +15 mm/-0 mm 3. Install 1 tie wrap within 12mm of the power supply cage. 4. Mark reference designator on each connector. 5. Tie wrap each harness at approximately mid point. Figure 18. Output Harness for 670-W Power Supply Revision 3.
PAGE 100
Intel® Entry Server Chassis SC5299-E TPS 2.5.6 Power Connectors 2.5.6.1 Baseboard Power Connector (P1) Power Sub-system 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 1* Signal 18 AWG Color Pin Signal 18 AWG Color +3.3 VDC Orange 13 +3.3 VDC Orange 3.3V RS Orange (24AWG) 14 -12 VDC Blue 2 +3.
PAGE 101
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 1 COM Black 2 COM Black 3 COM Black 4 COM Black 2.5.6.
PAGE 102
Intel® Entry Server Chassis SC5299-E TPS 2.5.6.4 Power Sub-system 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.
PAGE 103
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 106. P7 Right-angle Peripheral Power Connector Pin 2.5.6.8 Signal 18 AWG Color 1 +12V4 Green 2 COM Black 3 COM Black 4 +5 VDC Red Floppy Power Connector (P5) Connector housing: Amp* 171822-4 or equivalent Contact: Amp 170204-1 contact or equivalent Table 107. P5 Floppy Power Connector Pin 2.5.6.
PAGE 104
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.
PAGE 105
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 110. AC Input Rating Parameter MIN Rated VMAX IMAX Voltage (110) 90 Vrms 100-127 Vrms 140 Vrms 12 A1,3 Voltage (220) 180 Vrms 200-240 Vrms 264 Vrms 7 A2,3 Frequency 47 Hz 50/60 63 Hz 1. 2. 3. Start up VAC 85VAC +/4VAC Power Off VAC 75VAC +/5VAC Maximum input current at low input voltage range is measured at 90VAC, at max load. Maximum input current at high input voltage range is measured at 180VAC, at max load.
PAGE 106
Intel® Entry Server Chassis SC5299-E TPS 2.5.7.6 Power Sub-system AC Line Fuse The power supply has one line fused in the 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 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.
PAGE 107
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 108
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system The power supply complies with the limits defined in EN55024: 1998 using the IEC 61000-45:1995 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.
PAGE 109
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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 61000-411:1995 test standard and performance criteria C defined in Annex B of CISPR 24.
PAGE 110
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.
PAGE 111
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 117. Voltage Regulation Limits Parameter Tolerance MIN NOM MAX Units + 3.3V - 5%/+5% +3.14 +3.30 +3.46 Vrms + 5V - 5%/+5% +4.75 +5.00 +5.25 Vrms + 12V1 - 5%/+5% +11.40 +12.00 +12.60 Vrms + 12V2 - 5%/+5% +11.40 +12.00 +12.60 Vrms +12V3 - 5%/+5% +11.40 +12.00 +12.60 Vrms +12V4 - 5%/+5% +11.40 +12.00 +12.60 Vrms - 12V - 5%/+9% -11.40 -12.00 -13.08 Vrms + 5VSB - 5%/+5% +4.75 +5.00 +5.
PAGE 112
Intel® Entry Server Chassis SC5299-E TPS Output MIN MAX Units 400 4700 F 500 each 11,000 F -12V 1 350 F +5VSB 20 350 F +5V +12V(1, 2, 3, 4) 2.5.8.8 Power Sub-system 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 required. Closed-loop stability is ensured at the maximum and minimum loads, as applicable. 2.5.8.
PAGE 113
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Voltage Minimum Continuous Load Maximum Continuous Load +5V 0A 7.0 A +12V1 0.0 A 8.0 A +12V2 0.0 A 8.0 A +12V3 0.1 A 8.0 A +12V4 0.0 A 8.0 A -12V 0A 0.5 A +5VSB 0.1 A 3.0 A Peak Load Table 121. Pre-set Lighter Voltage Regulation Limits Parameter Tolerance MIN NOM MAX Units +3.3V - 10%/+10% +2.970 +3.30 +3.630 Vrms +5V - 10%/+10% +4.500 +5.00 +5.500 Vrms +12V1 - 8%/+10% +11.04 +12.00 +13.
PAGE 114
Intel® Entry Server Chassis SC5299-E TPS 2.5.8.14 Power Sub-system 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.
PAGE 115
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Table 124. Turn On/Off Timing Item Description Minimum Maximum Tsb_on_delay Delay from AC being applied to 5VSB being within regulation. 1500 Tac_on_delay Delay from AC being applied to all output voltages being within regulation. 2500 Tvout_holdup Time all output voltages stay within regulation after loss of AC.
PAGE 116
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system AC Input Tvout_holdup Vout Tpwok_low TAC_on_delay Tsb_on_delay PWOK 5VSB Tpwok_off Tpwok_on Tsb_on_delay Tpwok_on Tpwok_off Tpson_pwok Tpwok_holdup T5VSB_holdup Tsb_vout Tpson_on_delay PSON AC turn on/off cycle PSON turn on/off cycle 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.
PAGE 117
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system Over-current Limit Voltage MIN Peak Load* MAX Peak Limit Delay +12V1 18A 20A +12V2 18A 20A +12V3 18A 20A 24A 0.5~1sec +12V4 18A 20A 25A 0.5~1 -12V 0.625A 4.0A 5VSB 7.0A 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.
PAGE 118
Intel® Entry Server Chassis SC5299-E TPS 2.5.9.3 Power Sub-system 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.
PAGE 119
Intel® Entry Server Chassis SC5299-E TPS Power Sub-system 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.
PAGE 120
Intel® Entry Server Chassis SC5299-E TPS 3. Chassis Cooling 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 drive 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.
PAGE 121
Intel® Entry Server Chassis SC5299-E TPS Chassis Cooling 3.3 Cooling Solution Air should flow through the system from front to back, as indicated by the arrows in the following figure. TP00869 Figure 21. Cooling Fan Configuration The Intel® Entry Server Chassis SC5299-E is engineered to provide sufficient cooling for all internal components of the server. The cooling subsystem is dependent upon proper airflow.
PAGE 122
Intel® Entry Server Chassis SC5299-E TPS 4. Peripheral and Hard Drive Support Peripheral and Hard Drive Support A 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.
PAGE 123
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.
PAGE 124
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 place 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.
PAGE 125
Intel® Entry Server Chassis SC5299-E TPS Peripheral and Hard Drive Support SATA BACK PLANE BOARD - 6 PORT SATA HDD1 SATA HDD2 SATA HDD3 P.8 P.8 P.8 SATA HDD4 SATA HDD5 SATA HDD6 P.8 P.8 P.8 SATA 7PIN Conn6 P.7 SATA 7PIN Conn5 P.7 SATA 7PIN Conn4 STATUS DISPLAY LED P.7 SATA 7PIN Conn3 P.9 P.7 SATA 7PIN Conn2 P.7 SATA 7PIN Conn1 P.7 SMBus P.2 Hardware Monitor & SAF-TE P.2 & P.3 POWER CONN P.4 Figure 24. Intel® Entry Server Chassis SC5299-E 6HDD SATA HSBP Block Diagram Revision 3.
PAGE 126
Intel® Entry Server Chassis SC5299-E TPS 4.3.2.1 Peripheral and Hard Drive Support 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 I2C interface. The GEM424 controller also supports the IPMI specification by providing management data to a baseboard management controller through the IPMB.
PAGE 127
Intel® Entry Server Chassis SC5299-E TPS Peripheral and Hard Drive Support 68 & 69 Addr = 0xA0 Addr = 0xA2 BOOT RUN EEPROM EEPROM Port 2 Addr = 0xA6 GEM424 FRU SATA HOST EEPROM 72 & 73 Addr = 0xC0 Port 1 Addr = 0x90 Temp Sensor 74 & 75 IPMB Addr = 0xC0/C2 Port 0 Figure 25. Intel® Entry Server Chassis SC5299-E 6HDD SATA Hot Swap Backplane I2C Bus Connection Diagram 4.3.2.3.1 I2C Bus Address and Loading Table 129.
PAGE 128
Intel® Entry Server Chassis SC5299-E TPS Device Power Well ViH Peripheral and Hard Drive Support ViL VoL Ileak CAP I2C Address I2C Bus Name AT24C512 P5V 0.7VCC 0.3VCC 0.4V/2.1mA 3uA 8PF A2h SDA2,SCL2 AT24C128 P5V 0.7VCC 0.3VCC 0.4V/2.1mA 3uA 8PF A0h SDA2,SCL2 AT24C02 P5V 0.7VCC 0.3VCC 0.4V/2.1mA 3uA 8PF A6h SDA2,SCL2 JP2 P5V 0.7VCC* 0.3VCC* 0.4V/3mA* 10uA* 4/8P* * SDA2,SCL2 4.3.2.3.
PAGE 129
Peripheral and Hard Drive Support GEM424 PIN NAME I/O Type Power Well 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 4.7K to 5V GPIO12 I 3.3V SATA HDD0 present detection HD0_INSTALL_L GPIO13 I 3.3V SATA HDD1 present detection HD1_INSTALL_L GPIO14 I 3.3V SATA HDD2 present detection HD2_INSTALL_L GPIO15 I 3.3V SATA HDD3 present detection HD3_INSTALL_L GPIO16 I 3.
PAGE 130
Intel® Entry Server Chassis SC5299-E TPS Peripheral and Hard Drive Support Table 132. LED Function Status LED 4.3.2.7 Definition GREEN ON HDD Activity YELLOW ON HDD Fail YELLOW Blinking Rebuild in progress 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.
PAGE 131
Intel® Entry Server Chassis SC5299-E TPS Peripheral and Hard Drive Support Connector Contact Number Signal Name 6 H_RXPn 7 GND 8 3.3V - NC 9 3.3V - NC 10 3.3V Precharge - NC 11 GND 12 GND 13 GND 14 5V Precharge 15 5V 16 5V 17 GND 18 4.3.2.8 19 GND 20 12V Precharge 21 12V 22 12V G1 GND G2 GND Power Connectors The 6HDD SATA HSBP provides two standard 4-pin hard drive power connectors.
PAGE 132
Intel® Entry Server Chassis SC5299-E TPS 4.3.2.9 Peripheral and Hard Drive Support 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 4.3.2.11 Signal Name Description 1 I2C Address Control IPMI interface address selection.
PAGE 133
Peripheral and Hard Drive Support Intel® Entry Server Chassis SC5299-E TPS Figure 26. Intel® Entry Server Chassis SC5299-E 6HDD SATA Hot Swap Backplane Board Layout 4.3.2.13 Connector Specifications Table 138.
PAGE 134
Intel® Entry Server Chassis SC5299-E TPS 4.3.2.14 Supported Intel® Server Boards 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.
PAGE 135
Intel® Entry Server Chassis SC5299-E TPS Standard Control Panel 5. Standard Control Panel The Intel® Entry Server Chassis SC5299-E control panel configuration has a three-button, fiveLED 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 opening the front bezel door. 5.
PAGE 136
Intel® Entry Server Chassis SC5299-E TPS Standard Control Panel Table 139.
PAGE 137
Intel® Local Control Panel 6. Intel® Entry Server Chassis SC5299-E TPS 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.
PAGE 138
Intel® Entry Server Chassis SC5299-E TPS 6.1 Intel® Local Control Panel 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 3.
PAGE 139
Intel® Entry Server Chassis SC5299-E TPS System Interconnection 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.
PAGE 140
Intel® Entry Server Chassis SC5299-E TPS 7.
PAGE 141
Supported Intel® Server Boards 8.
PAGE 142
Intel® Entry Server Chassis SC5299-E TPS Regulatory, Environmentals, and Specifications 9. Regulatory, Environmentals, and Specifications 9.1 Product Regulatory Compliance 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.
PAGE 143
Regulatory, Environmentals, and Specifications 9.1.3 9.1.
PAGE 144
Intel® Entry Server Chassis SC5299-E TPS 9.1.5 Regulatory, Environmentals, and Specifications Product Regulatory Compliance Markings ® This Intel server chassis product bears the following regulatory marks.
PAGE 145
Regulatory, Environmentals, and Specifications 9.2 9.2.1 Intel® Entry Server Chassis SC5299-E TPS Electromagnetic Compatibility Notices 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 received, including interference that may cause undesired operation. Intel Corporation 5200 N.E.
PAGE 146
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.
PAGE 147
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 country 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.
PAGE 148
Intel® Entry Server Chassis SC5299-E TPS - 9.6 Regulatory, Environmentals, and Specifications Cadmium 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.
PAGE 149
Intel® Entry Server Chassis SC5299-E TPS Regulatory, Environmentals, and Specifications Table 141.
PAGE 150
Intel® Entry Server Chassis SC5299-E TPS 9.9 Regulatory, Environmentals, and Specifications 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.
PAGE 151
Intel® Entry Server Chassis SC5299-E TPS Regulatory, Environmentals, and Specifications Table 144.
PAGE 152
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.
PAGE 153
Intel® Entry Server Chassis SC5299-E TPS Glossary Glossary Word/Acronym Definition ACA Australian Communication Authority ANSI American National Standards Institute ATX 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 are needed.
PAGE 154
Intel® Entry Server Chassis SC5299-E TPS Word/Acronym Glossary Definition 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.