cPCI500 Series 500W 6Ux4HP DC/DC CompactPCI™ Power Supply SELECTION GUIDE S Model Number Power Output Current 5V 3.3V 12V -12V IPMI Ish1 CPCI500D-1 C 500W 55A Y 11A 1.7A N P No CPCI500D-2 C 500W 30A N 11A 1.7A N P No C CPCI500D-3 500W 30A N 11A 1.7A Y A No C CPCI500D-4 500W 55A Y 11A 1.7A Y A No No CPCI500D-5 C 500W 55A N 11A 1.7A N A FEATURES C CPCI500D-6 500W 30A N 11A 1.7A N A No 6Ux4HP package CPCI500D-1C C 500W 55A Y 11A 1.7A N P Yes 500W power at 0-50ºC C CPCI500D-2C C 500W 30A N 11A 1.7A N P Yes PICMG 2.11 compliant CPCI500D-3C C 500W 30A N 11A 1.7A Y A Yes RoHS compliant CPCI500D-4C C 500W 55A Y 11A 1.7A Y A Yes CPCI500D-5C C 500W 55A N 11A 1.7A N A Yes CPCI500D-6C C 500W 30A N 11A 1.7A N A Yes Widerange 36-72Vdc input nput range IPMI option Active or passive current ent sharing 47-pin I/O Connector INPUT CHARACTERISTICS Parameter Conditions Min Typ Max Units 80% efficiency Input Operating Voltage 36 72 Vdc No minimum load Input Voltage Withstand 34 75 Vdc Hot-swap capable Inrush Current 36Vdc input 25 Apk 72Vdc input 50 Apk DESCRIPTION The cPCI500 is a high-reliability, 500W, 6ux4HP CompactPCI™ power supply operating from widerange DC-input. The use of our patented V-Series topology yields high efficiency which consequently permits packaging of this product in a compact, single card slot format (4HP). ORing diodes and current sharing allow the cPCI500 to be operated in N+n parallel-redundant configurations. Available with an IPMI interface option, the cPCI500 was designed for hot-swap, redundant configurations to support high-availability (HA) telecom applications. OUTPUT CHARACTERISTICS Output Nominal Voltage V1 Output Current Max A Max B +5.0Vdc 0A 55A 30A ±1% V2 +3.3Vdc 0A 30A 60A ±1% V3 +12Vdc 0A 11A 11A ±1% V4 -12Vdc 0A 1.7A 1.7A ±3% Parameter Conditions Min Typ Max Units 0.02 %/ºC Temperature Coefficient With a widerange input of 36-72Vdc, safety agency approvals to UL60950 and EN60950, EMI compliance to ETSI and Telcordia standards, the cPCI500 was designed with globally-deployed systems in mind. Additional features include remote sense compensation, unit enable control (EN#), output inhibit control (INH#), output fault signal (FAL#), and thermal warning signal (DEG#). LEDs are provided for visual indication of input power presence and output fault condition. PARD (V1 & V2) 20MHz bandwidth PARD (V3 & V4) 20MHz bandwidth Output Power 50ºC, 400lfm airflow Output Power 70ºC, 400lfm airflow The 4HP package and complement of global safety agency approvals provide for an advanced, high-density, high-efficiency power solution for your CompactPCI requirements. Minimum Load For full details go to www.murata-ps.com/rohs Transient Response Over-Voltage Protection 50 mVp-p 180 mVp-p 0 500 W 0 250 W ±8 %Vnom 120 ΔV, 50% load step Settling time All outputs 125 Full load, low line 12 Remote Sense Compensation V1, V2 & V3 300 Current Share Tolerance V1-V3; full load Isolation 200 μsec 135 %Vnom 16 msec 0 Output Holdup Tim Notes: www.murata-ps.com Total Regulation1 Min A mV ±10 % Pri-Sec 4 kVac Pri-Chassis 1.5 kVac Sec-Chassis 500 Vac 1 Total regulation includes line, load, and cross regulation. Technical enquiries email: [email protected], tel: +1 508 339 3000 TDC_cPCI500 Series.B01 Page 1 of 4 cPCI500 Series 500W 6Ux4HP DC/DC CompactPCI™ Power Supply GENERAL CHARACTERISTICS Parameter Conditions Efficiency 48Vdc input, 500W load (dependent upon load profile) Min Typ Switching Frequency MTBF Calculated per MIL-HDBK-217F, 25ºC, ground benign Weight Unpackaged Max Units 65 % 72 kHz 84 khrs 3.6 kg PROTECTION Parameter Inception Conditions/Response Min Typ Thermal Shutdown Automatic recovery upon restoration to operational temperatures 90 Output Power Limit Automatic recovery 530 Input Protection Internal line fuse, Littlefuse BLN 25P ROHS or equivalent Over-voltage Protection Output V1, latching 6.0 Output V2, latching 3.9 Max Units ºC W 25 A 6.5 7.0 Vdc 4.3 4.7 Vdc Parameter Conditions/Response Output Overload Protection Outputs are individually protected against overloads and indefinite short circuit with automatic recovery upon removal of the fault condition. Hot-Swap Capability Design Verification Testing (DVT) confirms that voltage excursions on the output buses resulting from insertion/extraction events do not exceed the specified maximum of 5%. However, routing of power and signal lines in the mating backplane is critical to minimization of such excursions. In addition, performance can be critically affected by load characteristics including resistance, negative resistance, and reactive components. While the control loop responses have been designed for optimum hot-swap performance over a wide range of characteristics, there may be instances where the voltage excursions exceed published specifications. In such cases, the control loop responses can be modified to perform optimally. Output Fault Isolation Output isolation devices are present in all outputs to isolate faults within a failed power supply. STATUS & CONTROL SIGNALS & INDICATORS Name Description Hot-Swap Enable Short pin on connector will enable the outputs when the mating pin is tied to DC GRD. Supply will not power up until this pin is engaged to its mate in the backplane. Unit output will be inhibited as pin is disengaged from the mating connector. Output Inhibit Secondary referenced; active low, TTL compatible. Logic “0” or short circuit to Logic RTN (pin 40 or 43) inhibits all outputs. DC Good Secondary referenced. Open collector signal with an internal 2.2k pull-up resistor is connected to the +5V output. TTL signal will transition high when all outputs are between 90% and 110% of their nominal voltage. Remote Sense Connection of the sense leads across the load at the desired point of regulation will compensate for voltage distribution drops up to 700mV between the output terminals of the power supply and the point of connection. The unit reverts to local sensing if the sense lines are opened for any reason. The output is protected against shorted or open leads. Applies to all outputs. Fan Alarm Secondary referenced; TTL compatible; active low. Signal transitions to a Logic 0 denotes a thermal warning. Power Present Indicator LED A green LED will be illuminated when the input voltage is present and above the minimum requirement. DC Good Indicator LED A green LED will be illuminated when the output voltages are within 90-110% of specification, coincident with assertion of the DC Good signal. This LED will be extinguished if any of the output voltages is outside of this range. Fan Good Indicator LED A green LED will be illuminated when the fan is operational, coincident with de-assertion of the Fan Alarm signal. This LED will be extinguished in the event of a fan failure. Sync Start A power supply generated signal used to simultaneously start power supplies connected in parallel when the load on any output exceeds a single power supply’s capacity for that output. These pins must be bused together at the backplane in parallel/redundant applications (N+n) when N>1. In simple redundant (1+1) or non-parallel applications (1+0), the pin can be ignored. Power Supply Present This pin presents a DC ground signal to the mating pin in the backplane. It is intended to be used by the system to detect the presence of a power supply when the supply is mated into an available position. ENVIRONMENTAL CHARACTERISTICS Parameter Conditions AmbientOperatingTemperature De-rate output power linearly above 40ºC to 250W at 60ºC. Min Ambient Storage Temperature Humidity Altitude Cooling www.murata-ps.com Max Units 0 Typ 60 ºC ºC -25 +125 Operating; non-condensing 10 95 % Storage; non-condensing 5 95 % Operating. De-rate ambient temperature by 2Cº per 1000ft above 5000ft. -200 10000 ft Storage -200 40000 ft Self-cooled by internal fan Technical enquiries email: [email protected], tel: +1 508 339 3000 TDC_cPCI500 Series.B01 Page 2 of 4 cPCI500 Series 500W 6Ux4HP DC/DC CompactPCI™ Power Supply CERTIFICATIONS Agency/Characteristic Standard UL UL1950 CSA CSA950 (per cUL) VDE EN60950 CE LVD Directive; self-certified RoHS EN Directive 2002/95/EC; self-certified; see Selection Guide table for specific model compliance SELV Self-certified Vibration MIL-STD-810F, Method 514.5, Procedure I; self-certified Shock MIL-STD-810F, Method 516.5, Procedure I; self-certified ELECTROMAGNETIC COMPATABILITY (EMC) Conducted Emissions EN 300 386, NEBS GR-1089 Electrostatic Discharge (ESD) EN61000-4-2, Level 3, Criteria B Radiated Immunity EN61000-4-3, Level 3, Criteria A Conducted Immunity EN61000-4-4, Level 3, Criteria A Line Voltage Surge EN61000-4-5, Class 3, Criteria B MECHANICAL DIMENSIONS www.murata-ps.com Technical enquiries email: [email protected], tel: +1 508 339 3000 TDC_cPCI500 Series.B01 Page 3 of 4 cPCI500 Series 500W 6Ux4HP DC/DC CompactPCI™ Power Supply PACKAGE SPECIFICATIONS IPMI/IPMB POWER SUPPLY SATELLITE CONTROLLER FEATURES CONNECTOR Complies with IPMI V1.5 Rev 1.1 and IPMB V1.0 Complies to PICMG2.9 (CompactPCI Systems Management Specification) 8 Analog inputs configured for monitoring voltages and currents on power supply outputs V1 - V4 Monitors the state of the thermal sensor Output inhibit control can be overwritten by IPMI commands Self Test with LED indicator (can be read and overwritten by IPMI commands) 6 programmable thresholds on each analog sensor Each threshold on each sensor can be enabled to generate event messages if that threshold is crossed Thermal sensor can be enabled to generate event messages Responds to all mandatory IPMI commands and numerous optional commands as indicated in the functional specification Firmware can be upgraded via the IPMB bus Includes Device SDR’s (Sensor Data Records) - These specify the type of sensor for each input (voltage, current, temperature, etc.) as well as the conversion formulas from raw ADC data to voltages, currents, etc. Includes FRU type information such as Model Number, serial number and firmware creation date Pin #1 Staging2 Signal Name Description 1-4 M V1 V1 Output 5-12 M RTN V1 and V2 Return 13-18 M V2 V2 Output 19 M RTN V3 Return 20 M V3 V3 Output 21 M V4 V4 Output 22 M RTN Signal Return 23 M RESERVED Reserved 24 M RTN V4 Return 25 M GA0 Geographic Address Bit 0 26 M RESERVED Reserved 27 S EN# Enable 28 M GA1 Geographic Address Bit 1 29 M V1ADJ V1 Adjust 30 M V1 SENSE V1 Remote Sense 31 M GA2 Geographic Address Bit 2 MECHANICAL 32 M V2ADJ V2 Adjust Shock: MIL-STD-810d, Method 516.3, Procedure 1. 33 M V2 SENSE V2 Remote Sense Vibration: MIL-STD-810d, Method 514.3, Procedure 1. 34 M S RTN Sense Return Dimensions: 6U x 4HP x 160mm (see Mechanical above) 35 M V1 SHARE V1 Current Share EMC & SAFETY 36 M V3 SENSE V3 Remote Sense EMI: NEBS Compliant, ETSI Compliant 37 M IPMB SCL IPMB Serial Clock Line Safety Agency Ratings 38 M DEG# Degrade Signal Input Voltage: 48 VDC 39 M INH# Inhibit Input Current: 15A 40 M IPMB SDA IPMB Serial Data Line Input Power: 620W 41 M V2 SHARE V2 Current Share Agency Approvals 42 M FAL# Fail Signal UL1950/CSA950, EN60950, CE Mark. 43 M IPMB PWR IPMB Power Input (Low Voltage Directive) NOTES: 44 M V3 SHARE V3 Current Share 45 L CGND Chassis Grnd (Safety Grnd) 46 M ACN/+DC IN AC Input Neutral/+DC Input 47 M ACL/-DC IN AC Input Line/-DC Input (1) Pin numbers correspond to the female backplane connector. (2) L = Long Length Pin (First Make, Last Break); M = Medium Length Pins; S = Short Length Pins (Last Make, First Break) SAFETY AGENCY RATINGS USA: Input Voltage 36-72Vdc Input Current 25-12.5Adc Input Power 620W Mansfield (MA), Tel: (508) 339-3000, email: [email protected] Canada: Toronto, Tel: (866) 740-1232, email: [email protected] Murata Power Solutions, Inc. 11 Cabot Boulevard, Mansfield, MA 02048-1151 U.S.A. Tel: (508) 339-3000 (800) 233-2765 Fax: (508) 339-6356 UK: Milton Keynes, Tel: +44 (0)1908 615232, email: [email protected] France: Montigny Le Bretonneux, Tel: +33 (0)1 34 60 01 01, email: [email protected] Germany: München, Tel: +49 (0)89-544334-0, email: [email protected] www.murata-ps.com email: [email protected] ISO 9001 REGISTERED Murata Power Solutions, Inc. makes no representation that the use of its products in the circuits described herein, or the use of other technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein do not imply the granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change without notice. © 2008 Murata Power Solutions, Inc. Japan: Tokyo, Tel: 3-3779-1031, email: [email protected] Osaka, Tel: 6-6354-2025, email: [email protected] Website: www.murata-ps.jp China: Shanghai, Tel: +86 215 027 3678, email: [email protected] Guangzhou, Tel: +86 208 221 8066, email: [email protected] 05/14/08 www.murata-ps.com Technical enquiries email: [email protected], tel: +1 508 339 3000 TDC_cPCI500 Series.B01 Page 4 of 4