Intel® Server Chassis SC5650 Technical Product Specification Intel order number E39531-004 Revision 1.
Revision History Intel® Server Chassis SC5650 TPS Revision History Date January, 2009 Revision Number 1.0 Modifications Initial release. May, 2009 1.1 Added SC5650UP sku information. April, 2010 1.2 Removed CCC and CNCA. 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.
Intel® Server Chassis SC5650 TPS Table of Contents Table of Contents 1. 2. Product Overview................................................................................................................. 1 1.1 Intel® Server Chassis SC5650 Design Features ...................................................... 1 1.2 Chassis Views ......................................................................................................... 3 1.3 System Color ...............................................
Table of Contents 2.4 4. 1000-W Power Supply ........................................................................................... 64 2.4.1 Mechanical Overview............................................................................................. 65 2.4.2 Airflow Requirements............................................................................................. 67 2.4.3 Acoustic Requirements..........................................................................................
Intel® Server Chassis SC5650 TPS 5. 4.3.9 Clock Generation and Distribution ....................................................................... 116 4.3.10 7-Pin SAS/SATA Host Connectors ...................................................................... 116 4.3.11 IPMB Header - IPMB ........................................................................................... 116 4.3.12 SGPIO Header - SGPIO ......................................................................................
Table of Contents Intel® Server Chassis SC5650 TPS 9.2.5 BSMI (Taiwan) ..................................................................................................... 132 9.2.6 RRL (Korea)......................................................................................................... 133 9.3 Regulated Specified Components ....................................................................... 133 9.4 End of Life / Product Recycling.....................................................
Intel® Server Chassis SC5650 TPS List of Figures List of Figures Figure 1. Front Closed Chassis View of Intel® Server Chassis SC5650....................................... 3 Figure 2. Rear Closed Chassis View of Intel® Server Chassis SC5650 (DP and UP configuration shown).................................................................................................................................... 5 Figure 3.
List of Figures Intel® Server Chassis SC5650 TPS Figure 29. Passive SAS/SATA HSBP I2C Bus Connection Diagram ........................................ 111 Figure 30. Intel® Server Chassis SC5650 6HDD Passive SAS/SATA HSBP Board Layout ..... 118 Figure 31. Panel Controls and Indicators.................................................................................. 120 Figure 32. SKU3 - Pedestal Server Application ........................................................................ 122 Figure 33.
Intel® Server Chassis SC5650 TPS List of Tables List of Tables Table 1. Intel® Server Chassis SC5650 DP, BRP, WS and UP Features..................................... 2 Table 2. Thermal Environmental Requirements ......................................................................... 12 Table 3. Cable Lengths............................................................................................................... 14 Table 4. P1 Baseboard Power Connector ..............................................
List of Tables Intel® Server Chassis SC5650 TPS Table 33. Edge Finger Power Supply Connector Pin-out ........................................................... 38 Table 34. Power Supply Module Load Ratings........................................................................... 39 Table 35. Voltage Regulation Limits ........................................................................................... 40 Table 36. Transient Load Requirements.........................................................
Intel® Server Chassis SC5650 TPS List of Tables Table 68. Sound Power Requirement......................................................................................... 67 Table 69. Thermal Requirements ............................................................................................... 67 Table 70. AC Input Rating........................................................................................................... 68 Table 71. AC Line Sag Transient Performance ..........................
List of Tables Intel® Server Chassis SC5650 TPS Table 103. P2 Processor #1 Power Connector........................................................................... 92 Table 104. Peripheral Power Connector..................................................................................... 92 Table 105. Floppy Power Connector .......................................................................................... 92 Table 106. SATA Power Connector........................................................
Intel® Server Chassis SC5650 TPS List of Tables < This page intentionally left blank. > Revision 1.
Intel® Server Chassis SC5650 TPS 1. Product Overview Product Overview The Intel® Server Chassis SC5650 is a 5.2U pedestal chassis designed to support the Intel® Server Boards S5500BC, S5520HC/S5500HCV, S5520SC and S3420GP. 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.
Product Overview Intel® Server Chassis SC5650 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://support.intel.com/support/motherboards/server/chassis/SC5650/.
Intel® Server Chassis SC5650 TPS 1.2 Product Overview Configuration Construction SC5650DP SC5650BRP SC5650WS SC5650UP 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) Chassis Views A. B. C. D. E. Control panel controls and indicators Two half-height 5.
Product Overview Intel® Server Chassis SC5650 TPS A. B. C. D. E. F. G. H. I. 4 Power supply (fixed power supply shown) AC input power connector I/O Ports Expansion slot covers Alternate external SCSI knockout 120-mm system fan Location to install padlock loop External SCSI knockout Alternate Serial B port knockout Revision 1.
Intel® Server Chassis SC5650 TPS Product Overview 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® Server Chassis SC5650 (DP and UP configuration shown) Revision 1.
Product Overview Intel® Server Chassis SC5650 TPS Figure 3. Front Internal Chassis View of Intel® Server Chassis SC5650 (DP/WS/BRP configuration shown on the left, UP configuration shown on the right) 6 Revision 1.
Intel® Server Chassis SC5650 TPS Product Overview Figure 4. Rear Internal Chassis View of Intel® Server Chassis SC5650 (DP/WS/BRP configuration shown on the left, UP configuration shown on the right) Revision 1.
Product Overview 1.3 Intel® Server Chassis SC5650 TPS System Color The Intel® Server Chassis SC5650 is offered in one color: 1.4 Black (GE701) 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.
Intel® Server Chassis SC5650 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.
Power Sub-system Intel® Server Chassis SC5650 TPS 2. Power Sub-system 2.1 DP 600-Watt Power Supply The 600-W power supply specification defines a non-redundant power supply that supports DP Intel® Xeon® rack mount server systems. The 600-W power supply has eight outputs: 3.3V, 5V, 12V1, 12V2, 12V3, 12V4, -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.
Intel® Server Chassis SC5650 TPS 2.1.1 Power Sub-system Mechanical Overview Figure 6. Mechanical Drawing for Power Supply Enclosure Revision 1.
Power Sub-system 2.1.2 Intel® Server Chassis SC5650 TPS Airflow and Temperature The power supply incorporates one 80-mm fan for self and system cooling. The fan provides no less than 14 CFM of airflow through the power supply when installed in the system. The cooling air enters the power module from the non-AC side. The power supply operates within all specified limits over the Top temperature range. Table 2. Thermal Environmental Requirements Top ITEM DESCRIPTION Operating temperature range.
Intel® Server Chassis SC5650 TPS Power Sub-system Figure 7. Output Cable Harness for 600-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 1.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 3.
Intel® Server Chassis SC5650 TPS 2.1.3.2 Power Sub-system P2 Processor 0 Power Connector Connector housing: 8-pin Molex* 39-01-2085 or equivalent Contact: Molex* 39-00-0059 or equivalent Table 5. P2 Processor 0 Power Connector Pin 1 Signal COM 18 AWG Color Black Pin 5 Signal 18 AWG Color +12V1 White 2 COM Black 6 +12V1 White 3 COM Black 7 +12V1 Brown 4 COM Black 8 +12V1 Brown 2.1.3.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 8. P5-P8 Peripheral Power Connector Pin 1 2 3 4 2.1.3.6 Signal +12V4 COM COM +5Vdc 18 AWG Color Blue/White Stripe Black Black RED P9 Right-angle SATA Power Connector Connector Housing: JWT* F6002HS0-5P-18 or equivalent Contact: N/A 16 Revision 1.
Intel® Server Chassis SC5650 TPS Power Sub-system Table 9. P9 Right-angle SATA Power Connector Pin 1 2 3 4 5 2.1.3.7 Signal +3.3V Ground +5V Ground +12V4 18 AWG Color Orange Black Red Black Green P10 SATA Power Connector Connector Housing: 5-pin Molex* 67926-0011 or equivalent Contact: Molex* 67926-0041 or equivalent Table 10. P10 SATA Power Connector Pin Signal +3.3V COM +5V COM +12V2 1 2 3 4 5 2.1.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 11. AC Input Rating PARAMETER MIN Rated 140 Vrms Max Input Current 10 A1,3 200-240 Vrms 264 Vrms 5 A2,3 50/60Hz 63 Hz Voltage (110) 90 Vrms 100-127 Vrms Voltage (220) 180 Vrms Frequency 47 Hz MAX Start up VAC 85Vac +/4Vac Power Off VAC 75Vac +/5Vac Notes: 1 Maximum input current at low input voltage range should measured at 90VAC, at max load.
Intel® Server Chassis SC5650 TPS 2.1.4.5 Power Sub-system AC In-rush AC line in-rush current does not exceed a 50 A peak, cold start @ 20 degrees C and no damage 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 at 264 Vac input. The peak in-rush current is less than the ratings of its critical components (including input fuse, bulk rectifiers, and surge limiting device).
Power Sub-system Intel® Server Chassis SC5650 TPS Table 13. AC Line Surge Transient Performance Duration Continuous 0 to ½ AC cycle 2.1.4.
Intel® Server Chassis SC5650 TPS 2.1.5.4 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, +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 output. The +5V, +12V1, +12V2, +12V3, +12V4, –12V, and 5VSB outputs only use remote sense referenced to the ReturnS signal.
Power Sub-system Intel® Server Chassis SC5650 TPS Voltage +5VSB Minimum Continuous Load 0.1 A Maximum Continuous Load 2.0 A Peak Load5 Notes: 1. 2. 3. 4. 5. 6. 2.1.5.6 Maximum continuous total DC output power should not exceed 600 W. Peak load on the combined 12-V output should not exceed 48 A. Maximum continuous load on the combined 12-V output should not exceed 43 A. Peak total DC output power should not exceed 660 W.
Intel® Server Chassis SC5650 TPS Output 2.1.5.8 Power Sub-system Δ Step Load Size 1, 2 Load Slew Rate Test Capacitive Load +5 V 7.0 A 0.25 A/μsec 1000 μF +12 V 25 A 0.25 A/μsec 2700 μF +5 VSB 0.5 A 0.25 A/μsec 20 μF Capacitive Loading The power supply is stable and meets all requirements with the following capacitive loading ranges. Table 17. Capacitive Loading Conditions 2.1.5.9 Output MIN MAX Units +3.
Power Sub-system 2.1.5.11 Intel® Server Chassis SC5650 TPS Common Mode Noise The Common Mode noise on any output does not exceed 350mV pk-pk over the frequency band of 10Hz to 30MHz.The measurement is made across a 100Ω resistor between each of the DC outputs including ground at the DC power connector and chassis ground (power subsystem enclosure). The test set-up uses an FET probe, such as a Tektronix* P6046, or equivalent. 2.1.5.
Intel® Server Chassis SC5650 TPS Power Sub-system Vout V1 10% Vout V2 V3 V4 Tvout rise Tvout_off Tvout_on Figure 8. Output Voltage Timing Revision 1.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 20. Turn On / Off Timing Item Tsb_on_delay Maximum Units Delay from AC being applied to 5VSB being within regulation. Description Minimum 1500 msec Tac_on_delay Delay from AC being applied to all output voltages being within regulation. 2500 msec Tvout_holdup Time all output voltages stay within regulation after loss of AC. 21 msec Tpwok_holdup Delay from loss of AC to de-assertion of PWOK.
Intel® Server Chassis SC5650 TPS 2.1.6 Power Sub-system Protection Circuits Protection circuits inside the power supply cause only the power supply’s main outputs to shut down. If the power supply latches off due to a protection circuit tripping, an AC cycle OFF for 15 seconds and a PSON# cycle HIGH for 1 second resets the power supply. 2.1.7 Current Limit (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.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 21. Over Current Protection (OCP) VOLTAGE 2.1.7.1 +3.3 V Min 26.4 A OVER CURRENT LIMIT Max 36 A +5 V 26.4 A 36 A +12 V1 18 A 20 A +12 V2 18 A 20 A +12 V3 18 A 20 A +12 V4 18 A 20 A -12 V 0.625 A 4A 5 VSB N/A 8A Over Voltage Protection (OVP) The power supply over voltage protection is locally sensed. After an over-voltage condition occurs, the power supply shuts down and latches off.
Intel® Server Chassis SC5650 TPS 2.1.7.3 Power Sub-system 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. Refer to the following table and figure for PSON# signal characteristics.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 24. PWOK Signal Characteristics Signal Type PWOK = High Open collector/drain output from power supply. Pull-up to VSB located in system. Power OK PWOK = Low Power Not OK Logic level low voltage, Isink=4mA Logic level high voltage, Isource=200μA MIN MAX 0V 0.4 V 2.4 V 5.25 V Sink current, PWOK = low 4m A Source current, PWOK = high 2m A PWOK delay: Tpwok_on 100 ms PWOK rise and fall time 100μsec Power down delay: T pwok_off 2.1.
Intel® Server Chassis SC5650 TPS Power Sub-system Figure 11. Power Supply Enclosure - Dimensional Drawing 2.2.1.1 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.
Power Sub-system 2.2.1.2 Intel® Server Chassis SC5650 TPS 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 ISO7779. Under a condition where inlet air temperature exceeds the limit, sound power level may exceed the limit. The power supply incorporates a variable speed fan. The fan speed varies linearly based on output loading and ambient temperature.
Intel® Server Chassis SC5650 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.” You must pay special attention to the fan case temperature; it cannot be exceeded under any conditions. 2.2.1.4 LED Marking and Identification The LED is green or amber when lit. 2.2.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 28. AC Input Rating Parameter MIN Rated MAX Line Voltage (110) 90 Vrms 100-127 Vrms 140 Vrms Line Voltage (220) 180 Vrms 200-240 Vrms 264 Vrms Frequency 47 Hz 50/60Hz 63 Hz Start up VAC 85Vac +/4Vac Power Off VAC Max Input Current TBD Arms1,3 75Vac +/5Vac 2,3 TBD Arms Max Rated Input AC Current TBD Arms4 TBD Arms4 Notes: 1 2 3 4 Maximum input current at low input voltage range should be measured at 90Vac at max load.
Intel® Server Chassis SC5650 TPS 2.2.2.6 Power Sub-system 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).
Power Sub-system Intel® Server Chassis SC5650 TPS 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 61000-45:1995 test standard and performance criteria B defined in Annex B of CISPR 24. 2.2.2.
Intel® Server Chassis SC5650 TPS 2.2.2.11 Power Sub-system 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. 2.2.2.11.1 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. In addition, the power supply meets the following Intel Requirement: o 2.2.
Power Sub-system Intel® Server Chassis SC5650 TPS 2.2.3 DC Output Specification 2.2.3.1 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 33. Edge Finger Power Supply Connector Pin-out Connector Gold finger edge connector: 2X25 Upper Side Pin No Top. Pin No.
Intel® Server Chassis SC5650 TPS 2.2.3.2 Power Sub-system 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. A reliable protective earth ground is provided on the power supply. All secondary circuits are connected to protective earth ground.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 35. Voltage Regulation Limits Parameter + 12V Tolerance - 5% / +5% MIN +11.40 NOM +12.00 MAX +12.60 Units Vrms + 5VSB - 5% / +5% +4.75 +5.00 +5.25 Vrms 2.2.3.7 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 was tested between 5 Hz and 5 kHz at duty cycles ranging from 10%-90%.
Intel® Server Chassis SC5650 TPS 2.2.3.11 Power Sub-system Ripple / Noise The maximum ripple/noise output of the power supply is defined in the following table. This is measured over a bandwidth of 0Hz to 20MHz at the power supply output connectors. A 10μF tantalum capacitor in parallel with a 0.1μF ceramic capacitor is placed at the point of measurement. Table 38. Ripple and Noise +12V Output 120mVp-p 2.2.3.12 +5VSB Output 50mVp-p Forced Load Sharing The +12V output has forced load sharing.
Power Sub-system Intel® Server Chassis SC5650 TPS Vout V1 10% Vout V2 V3 V4 Tvout Tvout_off rise Tvout_on Figure 12. Output Voltage Timing Table 40. Turn On / Off Timing Item Tsb_on_delay Description Delay from AC being applied to 5 VSB being within regulation. Minimum Tac_on_delay Delay from AC being applied to all output voltages being within regulation. Tvout_holdup Time all output voltages stay within regulation after loss of AC.
Intel® Server Chassis SC5650 TPS Power Sub-system A C Input T vout_h oldup V out T pw ok_low T A C _on _delay T sb_ on _delay PW O K 5V SB T pw ok_off T pw ok_on T sb_ on _delay T pw ok_on Tp T pson T pw ok_h oldup T 5V S B _ ho ldup T sb_ vout T pson _on _delay PSO N A C turn on/off cycle PSO N turn on/off cycle Figure 13. Turn On/Off Timing (Power Supply Signals) 2.2.3.
Power Sub-system Intel® Server Chassis SC5650 TPS or over-stressing / over-heating any internal components or adversely affecting the turn-on performance (no protection circuits tripping during turn on). While in standby mode, at no load condition, the residual voltage on the 12-V output does not exceed 100 mV. 2.2.3.
Intel® Server Chassis SC5650 TPS Power Sub-system 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 never trip any lower than the minimum levels when measured at the power pins of the power supply connector. Table 42. Over-voltage Protection Limits 2.2.4.3 Output Voltage +12 V MIN (V) 13.3 MAX (V) 14.5 +5 VSB 5.7 6.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 43. PSON# Signal Characteristic Signal Type PSON# = Low Accepts an open collector/drain input from the system. Pull-up to VSB located in power supply. 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 5msec 400msec Source current, Vpson = low 4mA Power up delay: Tpson_on_delay PWOK delay: T pson_pwok 2.2.5.
Intel® Server Chassis SC5650 TPS 2.2.5.3 Power Sub-system 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 the power supply operation is no longer guaranteed, PWOK will be de-asserted to a LOW state.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 46.
Intel® Server Chassis SC5650 TPS Power Sub-system once it is installed in the system: Address2, Address1, and Address0. For non-redundant systems the power supply device address location should be B0h.
Power Sub-system 2.3.1 50 Intel® Server Chassis SC5650 TPS Mechanical Overview Revision 1.
Intel® Server Chassis SC5650 TPS Power Sub-system Figure 14. Mechanical Drawing for Dual (1+1 Configuration) Power Supply Enclosure 2.3.1.1 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. Revision 1.
Power Sub-system 2.3.1.2 Intel® Server Chassis SC5650 TPS Temperature Requirements The PDB operates within all specified limits over the Top temperature range. Table 47. Environmental Requirements 2.3.1.3 Item Top Description Operating temperature range. MIN 0 MAX 45 Units °C Tnon-op Non-operating temperature range.
Intel® Server Chassis SC5650 TPS Power Sub-system Table 49. P1 Baseboard Power Connector Pin 1* Signal +3.3VDC 18 AWG Color Orange Pin 13 Signal +3.3VDC 18 AWG Color Orange 3.3V RS Orange (24AWG) 14 -12VDC Blue 2 +3.3VDC Orange 15 COM Black 3* COM Black 16 PSON# Green (24AWG) COM RS Black (24AWG) 17 COM Black +5VDC Red 18 COM Black 4* 5V RS Red (24AWG) 19 COM Black 5 COM Black 20 Reserved N.C.
Power Sub-system 2.3.1.7 Intel® Server Chassis SC5650 TPS Power Signal Connector (P4) Connector housing: 5-Pin Molex* 50-57-9405 or equivalent Contacts: Molex* 16-02-0087 or equivalent Table 52. P4 Power Signal Connector 2.3.1.8 Pin 1 I2C Clock Signal 24 AWG Color 2 I2C Data Yellow 3 Reserved N.C. 4 COM Black 5 3.3 RS Orange White Peripheral Power Connectors (P5, P6, P7, P8) Connector housing: Amp* 1-480424-0 or equivalent Contact: Amp* 61314-1 contact or equivalent Table 52.
Intel® Server Chassis SC5650 TPS Power Sub-system Table 54. P10 SATA Power Connector Pin Signal 18 AWG Color 1 +3.3V Orange 2 COM Black 3 +5VDC Red 4 COM Black 5 +12V4 Green 2.3.2 DC Output Specification 2.3.2.1 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 200Ω.
Power Sub-system Intel® Server Chassis SC5650 TPS Note: 3.3V/5V combined power limit: 170 W max Table 56. DC/DC Converters Load Ratings MAX Load +12VDC Input DC/DC Converters +3.3V Converter +5V Converter -12V Converter 24.0A 30.0A 0.3A MIN Static / Dynamic Load 0A 1. 2. 3. 2.3.2.4 0A 0A Maximum continuous total DC output power should not exceed 570 W. Peak power and current loading shall be supported for a minimum of 12 seconds. Combined 3.3V and 5V power shall not exceed 170 W.
Intel® Server Chassis SC5650 TPS 2.3.2.6 Power Sub-system DC / DC Converter Capacitive Loading All outputs of the DC / DC converter are stable and meet all requirements with the following capacitive loading ranges. Table 59. Capacitive Loading Conditions Converter Output +3.3VDC MIN 250 MAX 6,800 Units μF +5VDC 400 4,700 μF -12VDC 1 350 μF Note: Refer to the Power Supply specification for the equivalent data on +12V and +5VSB output. 2.3.2.
Power Sub-system 2.3.2.11 Intel® Server Chassis SC5650 TPS 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.
Intel® Server Chassis SC5650 TPS Power Sub-system Table 62. Turn On / Off Timing Item Tsb_on_delay Description Delay from AC being applied to 5VSB being within regulation. Loading Tac_on_delay Delay from AC being applied to all output voltages being within regulation. Tvout_holdup Time all output voltages stay within regulation after loss of AC.
Power Sub-system 2.3.2.12 Intel® Server Chassis SC5650 TPS 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.
Intel® Server Chassis SC5650 TPS 2.3.3.2 Power Sub-system 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 combination 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.
Power Sub-system Intel® Server Chassis SC5650 TPS Signal Type Accepts an open collector/drain input from the system. Pull-up to VSB located in power supply. ON PSON# = Low 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 2.3.4.
Intel® Server Chassis SC5650 TPS Power Sub-system The SMBAlert# signal will automatically be cleared when the cause of the event is no longer present. Table 67. SMBAlert# Signal Characteristics Signal Type (Active Low) Open collector / drain output from power supply. Pullup to VSB located in system. Alert# = High OK Alert# = Low Power Alert to system Logic level low voltage, Isink=4 mA MIN MAX 0V 0.4 V Logic level high voltage, Isink=50 μA 5.
Power Sub-system Intel® Server Chassis SC5650 TPS If the power supply has a FRU (field replaceable unit) serial EEPROM; it shall be located at the following addresses. System addressing Address2/Address1/ Address0 0/0/0 0/0/1 0/1/0 0/1/1 1/0/0 1/0/1 1/1/0 1/1/1 FRU device addresses 2 A0h/A1h 1 A2h/A3h A4hA5h A6h/A7h A8h/A9h AAh/ABh ACh/ADh AEh/AFh 1 Non-redundant power supplies will use the 0/0/0 address location.
Intel® Server Chassis SC5650 TPS 2.4.1 Power Sub-system Mechanical Overview Revision 1.
Power Sub-system Intel® Server Chassis SC5650 TPS Figure 17. Mechanical Drawing of the 1000-W Power Supply Enclosure 66 Revision 1.
Intel® Server Chassis SC5650 TPS 2.4.2 Power Sub-system 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. 2.4.3 Acoustic Requirements The declared sound power level of the power supply assembly does not exceed the levels specified in the following table. Table 68.
Power Sub-system 2.4.4.1 Intel® Server Chassis SC5650 TPS AC Input Connector The AC input connector is an IEC 320 C-14 power inlet. This inlet is rated for 15A/250VAC. 2.4.4.2 LED Marking and Identification The LED is green or amber when lit. The LED is labeled with the two symbols as illustrated: Power Symbol Fail Symbol ! Figure 18. LED Markings 2.4.5 AC Input Voltage Requirements 2.4.5.
Intel® Server Chassis SC5650 TPS Power Sub-system The power supply meets requirements under the following AC line sag and surge conditions. Table 71.
Power Sub-system 2.4.5.3.3 Intel® Server Chassis SC5650 TPS Radiated Immunity The power supply complies with the limits defined in EN55024: 1998 using the IEC 61000-43:1995 test standard and performance criteria A defined in Annex B of CISPR 24. 2.4.5.3.4 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.
Intel® Server Chassis SC5650 TPS 2.4.5.5.1 Power Sub-system 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). 2.4.5.6 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. 2.4.5.6.
Power Sub-system 2.4.5.9 Intel® Server Chassis SC5650 TPS AC Line Leakage Current The maximum leakage current to ground for each power supply is 3.5mA when tested at 240VAC. 2.4.5.10 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.
Intel® Server Chassis SC5650 TPS 2.4.6 Power Sub-system DC Output Specification Table 76.
Power Sub-system Intel® Server Chassis SC5650 TPS Pin Signal 18 AWG Color Pin Signal 18 AWG Color 8 PWR OK Gray 22 +5 VDC Red 9 5VSB Purple 23 +5 VDC Red 10 +12V3 Yellow 24 COM Black +12V3 RS Yellow (24AWG) 11 +12V3 Yellow 12 +3.3 VDC Orange Notes: • • 5V Remote Sense Double Crimped into pin 4. 3.3V Locate Sense Double Crimped into pin 2. 2.4.7.
Intel® Server Chassis SC5650 TPS Power Sub-system Table 79. P3 Processor 2 Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 1 COM Black 5 +12V2 White 2 COM Black 6 +12V2 White 3 COM Black 7 +12V2 White 4 COM Black 8 +12V2 White 2.4.7.4 Power Signal Connector (P4) Connector housing: 5-pin Molex* 50-57-9405 or equivalent Contacts: Molex* 16-02-0087 or equivalent Table 80. P4 Power Signal Connector 2.4.7.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 82. P6 PCI Express Connector PIN SIGNAL 18 AWG Colors PIN SIGNAL 18 AWG Colors 1 +12V4 Green/Yellow strip 4 COM Black 2 +12V4 Green/Yellow strip 5 COM Black 3 +12V4 Green/Yellow strip 6 COM Black 7. 2.4.7.7 Peripheral Power Connectors (P9-P12) Connector housing: Amp* 1-480424-0 or equivalent Contact: Amp* 61314-1 contact or equivalent Table 83. P9-P12 Peripheral Power Connectors 2.4.7.
Intel® Server Chassis SC5650 TPS Power Sub-system Pin Signal 3 +5VDC Red 4 COM Black 5 +12V5 Green 2.4.8 DC Output Specifications 2.4.8.1 Output Power / Currents 18 AWG Color The following table defines the power and current ratings for the 1000-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 86. Load Ratings Voltage +3.
Power Sub-system Intel® Server Chassis SC5650 TPS +3.3V 0A 9.0 A +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 +12V5 0.1A 8.0A -12V 0A 0.5 A +5VSB 0.1 A 3.0 A Table 88. Pre-set Lighter Voltage Regulation Limits 2.4.8.3 Parameter +3.3V Tolerance - 10% / +10% MIN +2.970 NOM +3.30 MAX +3.630 Units Vrms +5V - 10% / +10% +4.500 +5.00 +5.500 Vrms +12V1 - 8% / +10% +11.04 +12.00 +13.20 Vrms +12V2 - 8% / +10% +11.04 +12.
Intel® Server Chassis SC5650 TPS Power Sub-system 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. 2.4.8.6 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. Table 89. Voltage Regulation Limits 2.4.8.7 Parameter + 3.
Power Sub-system Intel® Server Chassis SC5650 TPS Table 91. Capacitive Loading Conditions 2.4.8.9 Output +3.3V MIN 250 MAX 6800 Units μF +5V 400 4700 μF +12V(1, 2, 3, 4,5) 500 each 11,000 μF -12V 1 350 μF +5VSB 20 350 μF 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.
Intel® Server Chassis SC5650 TPS Power Sub-system reach regulation within 50ms (Tvout_on) of each other during turn on of the power supply. Each output voltage shall fall out of regulation within 400msec (Tvout_off) 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 93.
Power Sub-system Intel® Server Chassis SC5650 TPS Item Tpwok_holdup Description Delay from loss of AC to de-assertion of PWOK Minimum 20 Maximum Tpson_on_delay Delay from PSON# active to output voltages within regulation limits. 5 400 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.
Intel® Server Chassis SC5650 TPS Power Sub-system Residual voltage at the power supply outputs for a no-load condition does not exceed 100mV when AC voltage is applied and the PSON# signal is de-asserted. 2.4.8.15 Protection Circuits Protection circuits inside the power supply cause only the power supply’s main outputs to shut down. 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. 2.4.8.
Power Sub-system Intel® Server Chassis SC5650 TPS Output Voltage +5V MIN (V) 5.7 MAX (V) 6.5 +12V1,2, 3, 4,5 13.3 14.5 -12V -13.3 -16 5.7 6.5 +5VSB 2.4.8.18 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.
Intel® Server Chassis SC5650 TPS Power Sub-system 2.4.9.2 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 de-assert to a LOW state.
Power Sub-system 2.5 Intel® Server Chassis SC5650 TPS UP 400-Watt Power Supply The 400-W power supply specification defines a non-redundant power supply that supports UP Intel® Xeon® rack mount server systems. The 400-W power supply has six outputs: 3.3V, 5V, 12V1, 12V2, -12V, and 5VSB. The AC Input is 115V/230V full range and power factor corrected. The form factor is ATX12V. The power supply incorporates a Power Factor Correction circuit.
Intel® Server Chassis SC5650 TPS Power Sub-system Figure 21. Mechanical Drawing for Power Supply Enclosure Revision 1.
Power Sub-system 2.5.2 Intel® Server Chassis SC5650 TPS Temperature Requirements The power supply operates within all specified limits over the Top temperature range. Table 100. Thermal Environmental Requirements ITEM 2.5.3 Top DESCRIPTION Operating temperature range. 0 MIN 40 Specification UNITS °C Tnon-op Non-operating temperature range.
Intel® Server Chassis SC5650 TPS Power Sub-system Revision 1.
Power Sub-system Intel® Server Chassis SC5650 TPS Figure 22. Output Cable Harness for 400-W Power Supply Table 101. Cable Lengths From Length (mm) To No of pins connector # Description Power Supply cover exit hole 425 P1 24 Baseboard Power Connector Power Supply cover exit hole 425 P2 8 Processor Power Connector Power Supply cover exit hole 250 P3 4 Peripheral Power Connector 90 Revision 1.
Intel® Server Chassis SC5650 TPS Power Sub-system Length From (mm) To No of pins connector # Description Extension 100 P4 4 Peripheral Power Connector Extension from P4 100 P5 4 Floppy Power Connector P6 5 SATA Power Connector P7 5 SATA Power Connector P8 5 SATA Power Connector P9 4 Peripheral Power Connector P10 5 SATA Power Connector P11 5 SATA Power Connector P12 5 SATA Power Connector P13 4 Peripheral Power Connector Power Supply cover exit hole Extension Extensi
Power Sub-system Intel® Server Chassis SC5650 TPS Table 103. P2 Processor #1 Power Connector Pin Signal 18 AWG Color Pin Signal 18 AWG Color 1 COM Black 5 +12V1 Yellow 2 COM Black 6 +12V1 Yellow 3 COM Black 7 +12V1 Yellow 4 COM Black 8 +12V1 Yellow 2.5.3.3 Peripheral Power Connector (P3, P4, P9, P13) Connector housing: Amp* 1-480424-0 or equivalent Contact: Amp* 61314-1 contact or equivalent Table 104. Peripheral Power Connector Pin Signal 1 2.5.3.
Intel® Server Chassis SC5650 TPS Power Sub-system Pin 2.5.4 Signal 18 AWG Color 3 +5VDC Red 4 COM Black 5 +12V2 Yellow/Black 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% of the rated line voltage must not cause the power supply to go out of specified limits. If the AC input is less than 75VAC +/-5VAC range, the power supply does power off.
Power Sub-system Intel® Server Chassis SC5650 TPS 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 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. 2.5.4.
Intel® Server Chassis SC5650 TPS 2.5.4.7 Power Sub-system AC Line Fast Transient (EFT) Specification The power supply meets the EN 61000-4-5 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.
Power Sub-system 2.5.5.4 Intel® Server Chassis SC5650 TPS Output Power / Currents The following table defines power and current ratings for this 400W 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 111. Load Ratings Parameter Min Max. Peak Unit 5V 0.3 20.0 A 12V1 1.0 16.0 A 12V2 1.0 16.0 A 3.3V 0.5 20.0 A − 12V 0.
Intel® Server Chassis SC5650 TPS Power Sub-system Table 113. Transient Load Requirements Output +3.3V Δ Step Load Size (See note 2) 6.0A Load Slew Rate Test capacitive Load 0.25 A/μsec 970 μF +5V 4.0A 0.25 A/μsec 400 μF 12V1+12V2 18.0A 0.25 A/μsec 2200 μF 1,2 +5VSB 0.5A 0.25 A/μsec 20 μF Notes 1) Step loads on each 12V output may happen simultaneously. 2) The +12V should be tested with 2200μF evenly split between the four +12V rails 3) +5V/3.
Power Sub-system 2.5.5.10 Intel® Server Chassis SC5650 TPS Common Mode Noise The Common Mode noise on any output does not exceed 350mV pk-pk over the frequency band of 10Hz to 20MHz.The measurement is made across a 100Ω resistor between each of the DC outputs including ground at the DC power connector and chassis ground (power subsystem enclosure). The test set-up uses an FET probe, such as a Tektronix* P6046, or equivalent. 2.5.5.
Intel® Server Chassis SC5650 TPS Power Sub-system Table 116. Output Voltage Timing Item Tvout_rise Description Output voltage rise time from each main output. Tvout_on T vout_off Minimum 0.2* Maximum 20* Units 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 * The 5VSB output voltage rise time should be from 0.2 ms to 25 ms.
Power Sub-system Item Tsb_vout T5VSB_holdup Intel® Server Chassis SC5650 TPS Minimum Maximum Delay from 5VSB being in regulation to O/Ps being in regulation at AC turn on. Description 20 1000 Time the 5VSB output voltage stays within regulation after loss of AC.
Intel® Server Chassis SC5650 TPS 2.5.6.2 Power Sub-system Over Voltage Protection (OVP) The power supply over voltage protection shall be locally sensed. The power supply shall shutdown and latch off after an over voltage condition occurs. This latch shall be cleared by toggling the PSON# signal or by an AC power interruption. Table 24 contains the over voltage limits. The values are measured at the output of the power supply’s pins.
Power Sub-system Intel® Server Chassis SC5650 TPS Signal Type Accepts an open collector/drain input from the system. Pull-up to 5 V located in power supply. ON PSON# = Low 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 5 msec 400 msec 50 msec Figure 25. PSON# Required Signal Characteristics Disabled 0.3V ≤ Hysterisis ≤ 1.
Intel® Server Chassis SC5650 TPS Signal Type PWOK delay: Tpwok_on Power Sub-system Open collector/drain output from power supply. Pull-up to VSB located in system. 100 ms 1000 ms PWOK rise and fall time Power down delay: T pwok_off 100μsec 1 ms Revision 1.
Chassis Cooling 3. 3.1 Intel® Server Chassis SC5650 TPS Chassis Cooling Fan Configuration The cooling sub-system of the Intel® Server Chassis SC5650 consists of one 120mm chassis fan, one 120mm PCI fan and one 92mm drive bay fan. The cooling sub-system of the Intel® Server Chassis SC5650 UP consists of one 120mm chassis fan and one 92mm drive bay fan.
Intel® Server Chassis SC5650 TPS 3.3 Chassis Cooling Cooling Solution Air should flow through the system from front to back, as indicated by the arrows in the following figure. Revision 1.
Chassis Cooling Intel® Server Chassis SC5650 TPS Figure 26. Cooling Fan Configuration for Intel® Server Boards S5520HC/S5500HCV/S5520SC above, S5500BC middle and S3420GP below The Intel® Server Chassis SC5650 is engineered to provide sufficient cooling for all 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.
Intel® Server Chassis SC5650 TPS 4. Peripheral and Hard Drive Support Peripheral and Hard Drive Support A. Hard Disk Drive Bay Figure 27. Drive Bay Locations for Intel® Server Chassis SC5650 (DP/WS/BRP configuration shown) 4.1 3.5-inch Peripheral Drive Bay ® The Intel Server Chassis SC5650 supports one 3.5-inch removable media peripheral, such as a floppy or tape drive, below the 5.25-inch peripheral bays. The bezel must be removed prior to 3.5-inch removable media installation.
Peripheral and Hard Drive Support 4.2 Intel® Server Chassis SC5650 TPS 5.25-inch Peripheral Drive Bays The Intel® Server Chassis SC5650 supports two half-height 5.25-inch 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 600-W redundant power supply is longer in length and will limit the drives to approximately 7.5inch maximum length.
Intel® Server Chassis SC5650 TPS Peripheral and Hard Drive Support The Intel® Server Chassis SC5650 is capable of accepting a single SAS/SATA 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. Intel® Server Chassis SC5650 6HDD Passive SAS/SATA Hot Swap 4.3.
Peripheral and Hard Drive Support Intel® Server Chassis SC5650 TPS One Vitesse* SFF8485 (SGPIO) Interface Compliance with SCSI Accessed Fault Tolerant Enclosures (SAF-TE) specification, version 1.00 and addendum Compliance with SCSI Enclosure Service (SES) specification. Compliance with Intelligent Platform Management Interface (IPMI) 1.5. Support for up to four or six SAS1.5/3.
Intel® Server Chassis SC5650 TPS Peripheral and Hard Drive Support The VSC410* controller has many general purpose input and output pins (GPIOs) that allow customization. Some of these GPIOs are used for hard disk drive detection and driving hard disk drive fault LEDs. The VSC410* controller comes in a 64-pin Low Profile Quad Flat Pack (LQFP) package, operates from 3.3V and has an input clock frequency of 4MHz. 4.3.3.
Peripheral and Hard Drive Support 4.3.3.2 Intel® Server Chassis SC5650 TPS I2C Bus Address and Loading Table 121. I2C Bus Addressing TMP75* I2C Address VSC410* I2C port2 AT24C64* I2C Address 90h A0h C0h or C2h Table 122. 6HDD I2C Bus Loading Device ViH ViL VoL Ileak CAP TMP75* Power Well P3V3 0.7VCC 0.3VCC 0.4V/3mA 1uA 3PF VSC410* P3V3 2.0V 0.8V 0.4V/4mA 10uA AT24C64* P3V3 0.7VCC 0.3VCC 0.4V/2.1mA 3uA VSC410* P3V3 2.0V 0.8V 0.4V/4mA 10uA VSC410* P3V3 2.0V 0.8V 0.
Intel® Server Chassis SC5650 TPS Peripheral and Hard Drive Support The serial EEPROM has an I2C address of 0xA0h and resides on Port 0 of the VSC410* controller. 4.3.4 General Purpose Input/Output (GPIO) The VSC410* controller supports GPIO pins that are customizable. The following table lists the GPIO pins with their assigned functions. Table 123. 6HDD VSC410* Controller GPIO Assignment VSC410* Pin Name P0_0 I/O Type O Power Well 3.
Peripheral and Hard Drive Support Intel® Server Chassis SC5650 TPS VSC410* Pin Name P2_4 I/O Type O Power Well 3.3V Programming Description Test Point P2_5 O 3.3V Test Point TP_FM_DRV9_PRSNT _N P2_6 O 3.3V Test Point TP_LED_DRV10_FLT_ N P2_7 O 3.3V Test Point TP_FM_DRV10_PRSN T_N P3_0 I/O 3.3V Clock signal of SGPIO interface SGPIO_CLK P3_1 I/O 3.3V. Load signal of SGPIO interface SGPIO_LOAD P3_2 I/O 3.3V SDATAIN signal of SGPIO SGPIO_DATAOUT0 interface P3_3 I/O 3.
Intel® Server Chassis SC5650 TPS 4.3.7 Peripheral and Hard Drive Support SAS/SATA Drive Connectors The 6HDD SAS/SATA HSBP provides four or six 22-pin SAS/SATA connectors for hot swap hard disk drives supporting a 1.5GHz and 3.0GHz transfer rate. Table 125. 22-pin SAS/SATA Connector Pin-out Connector Contact Number S1 4.3.
Peripheral and Hard Drive Support Intel® Server Chassis SC5650 TPS Table 126. Power Connector Pin-out 4.3.9 Pin 1 Signal P12V 2 GND 3 GND 4 P5V Clock Generation and Distribution The 6HDD SAS/SATA HSBP provides one clock source. A 4-MHz crystal provides clock source to the VSC410* controller. 4.3.
Intel® Server Chassis SC5650 TPS 4.3.12 Peripheral and Hard Drive Support SGPIO Header - SGPIO The following table defines the pin-out of the 4-pin SGPIO Header. This connector is black in color. Table 129. SGPIO Header Pin-out Pin 1 Signal Name SGPIO_CLK Clock SGPIO_LOAD Load 3 SGPIO_DATAOUT0 DATAIN 4 SGPIO_DATAOUT1 DATAOUT 2 4.3.13 Description SES Header - SES The following table defines the pin-out of the 3-pin SES Header. This connector is white in color. Table 130.
Peripheral and Hard Drive Support 4.3.14.3 Intel® Server Chassis SC5650 TPS SES Cable Only used with SAS controllers – white 3-pin connector on HSBP to white 3-pin SES connector on server board Connect to white SES connector on server board, OR Connect to SES connector on add-in peripheral card 4.3.14.4 Board Layouts The figure below shows the board layout and connector placement of the 6HDD passive SAS/SATA HSBP. A. SATA/SAS hot-swap drive connectors B. SATA/SAS cable connectors C.
Intel® Server Chassis SC5650 TPS 4.3.15 Peripheral and Hard Drive Support Connector Specifications Table 131. 6HDD Passive SAS/SATA Hot Swap Backplane Connector Specifications Quantity 2 Manufacturer and Part Number Molex* 15-24-4744 Description Color Reference CONN,PWR,4P,STD,PLG,VT,0.
Standard Control Panel 5. Intel® Server Chassis SC5650 TPS Standard Control Panel The Intel® Server Chassis SC5650 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 (six totals) to indicate specific drive failure or activity. These LEDs are visible upon opening the front bezel door. 5.
Intel® Server Chassis SC5650 TPS Standard Control Panel Table 132.
Inter Local Control Panel 6. Intel® Server Chassis SC5650 TPS Inter 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 Intel® iBMC Module, the iLCP allows a user to monitor the health of an Intel® server platform or configure an Intel server for remote IPMI management.
Intel® Server Chassis SC5650 TPS 6.1 Inter 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 133. IPMI Header Pin # 1 Description IPMB_5VSB_SDA 2 GND 3 IPMB_5VSB_SCL 4 P5V_STBY Revision 1.
System Interconnection 7. Intel® Server Chassis SC5650 TPS 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 7.2.1 Chassis Internal Cables 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.
Intel® Server Chassis SC5650 TPS System Interconnection 7.4 Accessory Cables 7.5 I/O Panel Connectors The Intel® Server Chassis SC5650 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: 9-pin serial port(s) USB port(s) 15-pin video port Ethernet RJ-45 connector(s) 7.
System Interconnection Product Code Intel® Server Chassis SC5650 TPS Description supply tool-less locker, (4) Chassis Feet, , (1) Fixed HDD Fan Plate, (1) Supporting kit for upgrading to redundant power supply on SC5650DP/WS FPPTFANKIT4W 4 wire fan kit for Intel Server Chassis SC5650. Includes (1) 4 wire PCI Fan(120mm) & (2) 4 wire rear fan(120mm) & (1) 4 wire HDD fan(90mm).
Intel® Server Chassis SC5650 TPS 8. Supported Intel® Server Boards Supported Intel® Server Boards The Intel® Server Chassis SC5650 is mechanically and functionally designed to support the following Intel® server boards: Intel® Server Board S5520HC Intel® Server Board S5500HCV Intel® Server Board S5520SC Intel® Server Board S5500BC Intel® Server Board S3420GP Revision 1.
Regulatory, Environmentals, and Specifications Intel® Server Chassis SC5650 TPS 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.
Intel® Server Chassis SC5650 TPS EN55022 - Emissions (Europe) 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) & 1997-42 (EMI) (Korea) 9.
Regulatory, Environmentals, and Specifications Intel® Server Chassis SC5650 TPS Ecology Declaration (International) 9.1.5 Product Regulatory Compliance Markings ® This Intel server chassis products have the following regulatory marks.
Intel® Server Chassis SC5650 TPS 9.2 Regulatory, Environmentals, and Specifications 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. 2. This device must accept any interference received, including interference that may cause undesired operation. Intel Corporation 5200 N.E.
Regulatory, Environmentals, and Specifications 9.2.2 Intel® Server Chassis SC5650 TPS ICES-003 (Canada) Cet appareil numérique respecte les limites bruits radioélectriques applicables aux appareils numériques de Classe A prescrites dans la norme sur le matériel brouilleur: “Appareils Numériques”, NMB-003 édictée par le Ministre Canadian des Communications.
Intel® Server Chassis SC5650 TPS 9.2.6 Regulatory, Environmentals, and Specifications RRL (Korea) Following is the RRL certification information for Korea. English translation of the notice above: 1. 2. 3. 4. 5. 9.3 Type of Equipment (Model Name): On License and Product Certification No.: On RRL certificate.
Regulatory, Environmentals, and Specifications Intel® Server Chassis SC5650 TPS Note: RoHS implementing details are not fully defined and may change. Threshold limits and banned substances are noted as follows: • • Quantitiy limit of 0.1% by mass (1000 PPM) for: o Lead o Mercury o Hexavalent Chromium o Polybrominated Biphenyls Diphenyl Ethers (PBDE, PBB) Quantity limit of 0.01% by mass (100 PPM) for: o 9.
Intel® Server Chassis SC5650 TPS Regulatory, Environmentals, and Specifications Table 134. System Office Environment Summary Parameter Operating temperature 5°C to 40°C Limits Non-operating temperature -40°C to 70°C Non-operating humidity 35°C @ 90% RH Acoustic noise (EPSD idle/active)* Workstation: 4.8/5.5 BA; Pedstal: 5.5/6.0 BA; Intel Limit: 7.
Regulatory, Environmentals, and Specifications 9.9 Intel® Server Chassis SC5650 TPS Calculated MTBF The calculated MTBF (Mean Time Between Failures) for the Intel® Server Chassis SC5650, as configured from the factory, is presented in the following tables. Table 136.
Intel® Server Chassis SC5650 TPS Regulatory, Environmentals, and Specifications Server Model Subassembly (Server in 35oC ambient air) SC5650BRP MTBF FIT (hours) (flrs/10^9 hrs) Front Panel 7,000,000 143 Intrusion switch 25,000,000 40 Totals without motherboard = Totals with motherboard = 14,040 45300 22,105 Server Model Subassembly (Server in 35oC ambient air) SC5650WS MTBF FIT (hours) (flrs/10^9 hrs) S5520HC Baseboard 114,000 8,772 Power Supply 154,000 6,494 Nidec System FAN 34
Appendix A: Integration and Usage Tips Intel® Server Chassis SC5650 TPS Appendix A: Integration and Usage Tips This appendix provides a list of useful information that is unique to the Intel® Server Chassis SC5650 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, 6.
Intel® Server Chassis SC5650 TPS Glossary Glossary Word / Acronym ACA Australian Communication Authority Definition 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.
Glossary Intel® Server Chassis SC5650 TPS Word / Acronym SDR Sensor Data Record Definition SE Single-Ended SSI Server Standards Infrastructure Surge The condition where the AC line voltage rises above nominal voltage. THD Total Harmonic Distortion UART Universal Asynchronous Receiver Transmitter USB Universal Serial Bus VCCI Voluntary Control Council for Interference VSB or Stand By An output voltage that is present whenever AC power is applied to the AC inputs of the supply.
