D1U54P-W-1500-12-HxxTC Series 54mm 1U Front End AC-DC Power Supply Converter PRODUCT OVERVIEW The D1U54P-W-1500-12-HxxTC product series offers very high efficiency in a compact form factor. These variants offers 1500 watt, and is a power factor corrected front end supply with a 12Vdc main output and either a 3.3V, 5V or 12V auxiliary/standby output. Active (digital) current sharing is provided and up to eight supplies may be operated in parallel. The supply may be hot plugged, and auto recovers from overtemperature faults, that are reported by a status LEDS on the front panel in addition to logic and PMBus™ status signals. The low profile 1U package and excellent 35W/cubic inch power density it ideal for delivering reliable, efficient power to servers, workstations, storage systems and other 12V distributed power architectures. INPUT CHARACTERISTICS Part Number FEATURES +1500W continuous output power IEC60320-C16 connector for maximized low line operation 94% efficiency at 50% Load 12V main output 3.3V; 5V and 12V Standby Output Options 1U height: 2.15" x 12.65" x 1.57" > 35 Watts per cubic inch density N+1 redundancy, Hotpluggble Active (digital) current sharing on 12V main output; Integral ORing /isolation device MOSFET Internal cooling fan (variable speed) Overvoltage, overcurrent, overtemperature protection PMBus™/I²C interface with LED status indicators RoHS compliant Two Year Warranty Available now at: www.murata-ps.com/en/3d/acdc.html MPS # Power Output Power Output Power Output Input Voltage Input Voltage Input Voltage Main (200-240 Vac) (110-120 Vac) (100 Vac) Output 45°C 45°C 40°C Standby Output Airflow D1U54P-W-1500-12-HC4TC M1891 3.3Vdc Back to D1U54P-W-1500-12-HA4TC M1893 5Vdc Front D1U54P-W-1500-12-HB4TC M1895 12Vdc 1500W 1400W 1260W 12Vdc 2 D1U54P-W-1500-12-HC3TC M1892 3.3Vdc Front to 2 Back D1U54P-W-1500-12-HA3TC M1894 5Vdc 1 The HAxTC variants are certified for compliance to 80 PLUS® Platinum efficiency requirements. 2 Pending release, Contact factory for availability INPUT CHARACTERISTICS Parameter Conditions Min. Nom. Max. Units Input Voltage Operating Range 90 115/230 264 Vac Input Frequency 47 50/60 63 Hz Turn-on Input Voltage Ramp up 74 84 Vac Turn-off Input Voltage Ramp down 70 80 Maximum current at Vin = 90Vac/60Hz; 1260W 15 Arms Cold start between 0 to Inrush Current 50 Apk 200msec, 264Vac Power Factor At 230Vac, full load 0.99 20% load 90 Efficiency (230Vac) excluding fan load 50% load 94 % 100% load 91 OUTPUT VOLTAGE CHARACTERISTICS Output Parameter Conditions Min. Typ. Max. Units 12 Vdc Nominal Output Voltage Output Set Point Accuracy 50% load; Tamb =25°C -0.5 +0.5 % Line and Load Regulation2 Measrured at remote sense -1.0 +1.5 1,2 Ripple Voltage & Noise 20MHz Bandwidth 120 mV p-p 12V Output Current 1500W; (115-264Vac) 0 125 A Output Current 1260W; (90-264Vac) 0 105 Load Capacitance 30,000 μF Nominal Output Voltage 3.3 Vdc Line and Load Regulation 3.14 3.46 3.3VSB Ripple Voltage & Noise1,3 20MHz Bandwidth 75 mV p-p Output Current 0 4 A Load Capacitance 0 3000 μF Nominal Output Voltage 5.0 Vdc Line and Load Regulation 4.76 5.24 5VSB Ripple Voltage & Noise1,3 20MHz Bandwidth mV p-p 75 Output Current 0 A 4 Load Capacitance 0 μF 3000 Nominal Output Voltage 12 Vdc Line and Load Regulation 11.7 12.3 1,3 120 mV p-p 12VSB Ripple Voltage & Noise Output Current A 0 2.5 Load Capacitance μF 1000 Ripple and noise are measured with 0.1 μF of ceramic capacitance and 10 μF of tantalum capacitance on each of the power supply outputs. A short coaxial cable to the scope termination is used. Minimum Load of 5A. 3 Minimum Load of 0.25A. 1 2 http://www.murata-p.com/support D1U54P-W-1500-12-HxxTC.A02 Page 1 of 8 D1U54P-W-1500-12-HxxTC Series 54mm 1U Front End AC-DC Power Supply Converter OUTPUT CHARACTERISTICS Parameter Conditions Startup Time AC ramp up Min. 12V Main 10% to 60% load step; 1A/μs slew rate Typ. -5 Recovery Time to within 1% Vnom Transient Response Recovery Time to within 1% Vnom -5 -5 Holdup Time 110/230Vac in voltage ranges, 100% load (1500W) 12 Operational Vibration MTBF Min. -40 -5 -5 -5 Typ. % % Max. 70 45 45 40 90 95 5 5 3000 Units °C % m 540K hrs. Power Supply has single internal 20A/250V fast blow fuse on the AC line input 3.15 lbs. (1.43 kg) 12VSB ms ms Input Fuse Weight 5VSB % nom +5 Safety Approval Standards (Planned Submissions) 3.3VSB +5 +5 CAN/CSA C22.2 No 60950-1-07, Am.1:2011; Am 2_2014 UL 60950-1-2011, 2nd Ed. UL 60950-1, 2nd Ed. TUV EN60950 IEC60950-1:2005 (2nd Ed.)_A1 EN 60950-1:2006+A11+A1+A12+A2 BSMI (099/09/30); CNS13438 ((095/06/01) CQC GB4943.1-2011; GB9254-1-2008; GB17625, 1-2012 PROTECTION CHARACTERISTICS Output Parameter Voltage Overtemperature (intake) Overvoltage Shortciruit 12V Overcurrent At 180–264VVac % nom 2 At 100% load All outputs remain in regulation 30G non-operating Sine sweep; 5-150Hz, 2G; random vibration, 5-500Hz, 1.11G Per Telcordia SR-332 M1C1 @40°C +5 ms -5 Current sharing accuracy Hot Swap Transients Operating Humidity Storage Humidity Altitude (without derating at 40°C) Shock % nom 2 12VSB, 10% to 60% load step; 1A/μs slew rate. See Derating Curves Continuous See Derating Curves Noncondensing s +5 Ms -5 Recovery Time to within 1% Vnom Conditions Units 3 2 3.3V & 5VSB, 10% to 60% load step; 1A/μs slew rate ENVIRONMENTAL CHARACTERISTICS Parameter Storage Temperature Range Operating Temperature Range 1500W (180-264Vac) Operating Temperature Range 1260W (90-264Vac) Operating Temperature Range (85-264Vac) Max. Conditions Min. Typ. Max. Units Autorestart Latching 4 Hiccup then latch 60 13.0 65 70 14.5 °C V 145 - 4 Hiccup, >500msec each, then latch 137 145 A Overcurrent At 90-264VVac Overvoltage Overcurrent 4 Hiccup, >500msec each, then latch Latching Hiccup 116 3.6 5.1 Overvoltage Overcurrent Overvoltage Overcurrent Latching Hiccup Latching Hiccup 5.4 5.1 13.0 3.5 145 4.0 6.7 6.0 6.7 14.5 4.5 V A V A V A http://www.murata-p.com/support D1U54P-W-1500-12-HxxTC.A02 Page 2 of 8 D1U54P-W-1500-12-HxxTC Series 54mm 1U Front End AC-DC Power Supply Converter ISOLATION CHARACTERISTICS Parameter Insulation Safety Rating / Test Voltage Conditions Input to Output - Reinforced Input to Chassis - Basic Isolation Output to Chassis EMISSIONS AND IMMUNITY Characteristic Input Current Harmonics Voltage Fluctuation and Flicker Conducted Emissions Standard IEC/EN 61000-3-2 IEC/EN 61000-3-3 Min. 3000 1500 500 Typ. Max. Units Vrms Vrms Vdc Compliance Complies with Class A limits Complies FCC 47 CFR Part15/CISPR22/EN55022 Class A with 6dB margin ESD Immunity IEC/EN 61000-4-2 ±8KV Contact; ±15KV air discharge; Criteria B Radiated Field Immunity IEC/EN 61000-4-3 3V/m, 1KHz, 80% AM, 80MHz to 1GHz Criteria A Electrical Fast Transients/Burst Immunity IEC/EN 61000-4-4 Level 3 criteria B Surge Immunity IEC/EN 61000-4-5 Level 3 criteria B RF Conducted Immunity IEC/EN 61000-4-6 Level 2 criteria A Magnetic Field Immunity IEC/EN 61000-4-8 3 A/m criteria B Voltage Dips, Interruptions IEC/EN 61000-4-11 230Vin, 100% load, Phase 0°, Dip 100% Duration 10ms (A) 230Vin, 50% load, Phase 0°, Dip 100% Duration 20ms (VSB:A, V1:B) 230Vin, 100% load, Phase 0°, Dip 100% Duration > 20ms (VSB, V1:B) STATUS INDICATORS AND CONTROL SIGNALS (BI_COLOUR LED) Condition Standby - ON; Main output - OFF; AC PRESENT Standby - ON; Main output - ON Main output overcurrent, undervoltage, overvoltage FAN_FAULT; overtemperature; standby overcurrent, undervoltage No AC Power Power Supply Warning Event ADDR ADDRESS SELECTION ADDR pin (A3) resistor to GND (K-ohm)* 0.82 2.7 5.6 8.2 15 27 56 180 Power Supply Main Controller (Serial Communications Slave Address) 0xB0 0xB2 0xB4 0xB6 0xB8 0xBA 0xBC 0xBE GREEN LED Status (Power) Blinking green Solid green Off Off Off Off AMBER LED Status (Fault) Off Off On On Off Blinking Power Supply External EEPROM (Serial Communications Slave Address) 0xA0 0xA2 0xA4 0xA6 0xA8 0xAA 0xAC 0xAE * The resistor shall be +/-5% tolerance http://www.murata-p.com/support D1U54P-W-1500-12-HxxTC.A02 Page 3 of 8 D1U54P-W-1500-12-HxxTC Series 54mm 1U Front End AC-DC Power Supply Converter STATUS AND CONTROL SIGNALS Signal Name I/O INPUT_OK (AC Source) Output PW_OK (Output OK) Output SMB_ALERT (FAULT/WARNING) Output PRESENT_L (Power Supply Absent) Output PS_ON (Power Supply Enable/Disable PS_KILL Description The signal output is driven high when input source is available and within acceptable limits. The output is driven low to indicate loss of input power. There is a minimum of 1ms pre-warning time before the signal is driven low prior to the PWR_OK signal going low. The power supply must ensure that this interface signal provides accurate status when AC power is lost. Interface Details Pulled up internally via 10K to VDD1. A logic high >2.0Vdc A logic low <0.8Vdc Driven low by internal CMOS buffer (open drain output). Pulled up internally via 10K to VDD1. The signal is asserted, driven high, by the power supply to indicate that all outputs are valid. If any of the A logic high >2.0Vdc outputs fail then this output will be hi-Z or driven low. The output is driven low to indicate that the Main A logic low <0.8Vdc Driven low by internal CMOS buffer output is outside of lower limit of regulation (11.4Vdc). (open drain output). Pulled up internally via 10K to VDD1. The signal output is driven low to indicate that the power supply has detected a warning or fault and is A logic high >2.0Vdc intended to alert the system. This output must be driven high when the power is operating correctly A logic low <0.8Vdc (within specified limits). Driven low by internal CMOS buffer The signal will revert to a high level when the warning/fault stimulus (that caused the alert) is removed. (open drain output). Passive connection to +VSB_Return. The signal is used to detect the presence (installed) of a PSU by the host system. The signal is A logic low <0.8Vdc connected to PSU logic SGND within the power module. Input This signal is pulled up internally to the internal housekeeping supply (within the power supply). The power supply main 12Vdc output will be enabled when this signal is pulled low to +VSB_Return. In the low state the signal input shall not source more than 1mA of current. The 12Vdc output will be disabled when the input is driven higher than 2.4V, or open circuited. Cycling this signal shall clear latched fault conditions. Pulled up internally via 10K to VDD1. A logic high >2.0Vdc A logic low <0.8Vdc Input is via CMOS Schmitt trigger buffer. Input This signal is used during hot swap to disable the main output during hot swap extraction. The input is pulled up internally to the internal housekeeping supply (within the power supply). The signal is provided on a short (lagging pin) and should be connected to +VSB_Return. Pulled up internally via 10K to VDD1. A logic high >2.0Vdc A logic low <0.8Vdc Input is via CMOS Schmitt trigger buffer. An analog input that is used to set the address of the internal slave devices (EEPROM and microprocessor) used for digital communications. DC voltage between the limits of 0 and Connection of a suitable resistor to +VSB_Return, in conjunction with an internal resistor divider chain, +3.3Vdc. will configure the required address. VIL is 0.8V maximum A serial clock line compatible with PMBusTM Power Systems Management Protocol Part 1 – General Requirements Rev 1.1. VOL is 0.4V maximum when sinking No additional internal capacitance is added that would affect the speed of the bus. 3mA SCL (Serial Clock) Both The signal is provided with a series isolator device to disconnect the internal power supply bus in the VIH is 2.1V minimum event that the power module is unpowered. A serial data line compatible with PMBusTM Power Systems Management Protocol Part 1 – General VIL is 0.8V maximum Requirements Rev 1.1. VOL is 0.4V maximum when sinking SDA (Serial Data) Both The signal is provided with a series isolator device to disconnect the internal power supply bus in the 3mA event that the power module is unpowered. VIH is 2.1V minimum Remote sense connections intended to be connected at and sense the voltage at the point of load. The voltage sense will interact with the internal module regulation loop to compensate for voltage drops Compensation for up to 0.12Vdc total due to connection resistance between the output connector and the load. V1_SENSE Input connection drop (output and return If remote sense compensation is not required then the voltage can be configured for local sense by: V1SENSE_RTN connections). 1. V1_SENSE directly connected to power blades 6 to 10 (inclusive) 2. V1_SENSE_RTN directly connected to power blades 1 to 5 (inclusive) The current sharing signal is connected between sharing units (forming an ISHARE bus). It is an input and/or an output (bi-directional analog bus) as the voltage on the line controls the current Bishare between sharing units. A power supply will respond to a change in this voltage but a power Analogue voltage: Directional supply can also change the voltage depending on the load drawn from it. On a single unit the voltage +8V maximum; 10K to +12V_RTN ISHARE Analogue on the pin (and the common ISHARE bus would read 8VDC at 100% load (module capability). For two Bus identical units sharing the same 100% load this would read 4VDC for perfect current sharing (i.e. 50% module load capability per unit). 1. VDD is an internal voltage rail derived from VSB and an internal housekeeping rail (“diode ORed”) and is compatible with the voltage levels of TTL and CMOS logic families. ADDR (Address Select) Input http://www.murata-p.com/support D1U54P-W-1500-12-HxxTC.A02 Page 4 of 8 D1U54P-W-1500-12-HxxTC Series 54mm 1U Front End AC-DC Power Supply Converter DERATING CURVES Output Power Derating D1U54P-W-1500-12-HxxTC 1600 Maximum Output power 1400 1200 100 Vac 1000 110 Vac 800 200-240 Vac 600 120 Vac 400 200 0 25 30 35 40 45 50 55 60 Ambient Temperature 1 Input current must be limited by end user to 12A for North American certification The power supply has no limitation on its output current/power in the respect of meeting the operating conditions shown by the derating limits shown above. It is the responsibility of the end user to ensure operating conditions are maintained within their safety agency certification limits to assure safe and reliable operation 2 Airflow Characteristics D1U54-W-1500-12-HBxxx P & Q CURVE 450 400 Back Pressure (Pa) 350 300 250 Airflow Front to Back Airflow Back to Front 200 150 100 50 0 0 http://www.murata-p.com/support 2 4 6 8 PSU airflow (CFM) 10 12 14 D1U54P-W-1500-12-HxxTC.A02 Page 5 of 8 D1U54P-W-1500-12-HxxTC Series 54mm 1U Front End AC-DC Power Supply Converter OUTPUT CONNECTOR & SIGNAL INTERFACE Note: With respect to signals columns 5, “3” refers to the shortest level signal pin; the “shortest” pins are the “last to make, first to break” in the mating sequence. PIN ASSIGNMENTS - D1U54P-W-1500-12-HB4KC FCI PN 10122460-005LF (Power Supply) Pin Signal Name Comments 6, 7, 8, 9, 10 V1 + 12V main output 1, 2, 3, 4, 5 PGND + 12V main output return A1 VSB Standby output B1 VSB Standby output C1 VSB Standby output D1 VSB Standby output E1 VSB Standby output A2 VSB_return Standby return B2 VSB_return Standby return C2 Unused No User Connection D2 Unused No User Connection E2 Unused No User Connection A3 ADDR I2C address selection, (select by external pull B3 unused No User Connection C3 SDA I2C data signal line D3 V1_SENSE_R - Remote Sense return E3 V1_SENSE + Remote Sense A4 SCL I2C clock signal line B4 PS_ON Remote On/Off C4 SMB_ALERT I2C alert signal D4 Unused No User Connection E4 ACOK AC input OK A5 PSKILL Power supply kill, short pin B5 ISHARE Current share bus, short pin C5 PWOK Power OK, short pin D5 Unused No User Connection E5 PRESENT_L Power supply present, short pin MATING CONNECTOR Part Number Tyco Electronics 2-1926739-5 FCI 10108888-R10253SLF http://www.murata-p.com/support Description Right Angle Right Angle D1U54P-W-1500-12-HxxTC.A02 Page 6 of 8 D1U54P-W-1500-12-HxxTC Series WIRING DIAGRAM 54mm 1U Front End AC-DC Power Supply Converter CURRENT SHARING NOTES 1. Main Output: Current sharing is achieved using the active current share method. 2. Current sharing can be achieved with or without the remote (V_SENSE) connected to the common load. 3. +VSB Outputs can be tied together for redundancy but total combined output power must not exceed the rated standby power of a single unit. The +VSB output has an internal ORING MOSFET for additional redundancy/internal short protection. 4. The current sharing pin B5 is connected between sharing units (forming an ISHARE bus). It is an input and/or an output (bi-directional analog bus) as the voltage on the line controls the current share between sharing units. A power supply will respond to a change in this voltage but a power supply can also change the voltage depending on the load drawn from it. On a single unit the voltage on the pin (and the common ISHARE bus would read 8VDC at 100% load (power module capability). For two units sharing the same load this would read 4VDC for perfect current sharing (i.e. 50% power capability per unit). 5. The load for both the main 12V and the VSB rails at initial startup shall not be allowed to exceed the capability of a single unit. The load can be increased after a delay of 3sec (minimum), to allow all sharing units to achieve steady state regulation. MECHANICAL DIMENSIONS http://www.murata-p.com/support D1U54P-W-1500-12-HxxTC.A02 Page 7 of 8 D1U54P-W-1500-12-HxxTC Series 54mm 1U Front End AC-DC Power Supply Converter Air Flow Direction: D1U54P-W-1500-12-Hx3TC (Front to Back) D1U54P-W-1500-12-Hx4TC (Back to Front) 1. 2. 3. 4. AC input connector: IEC 60320-C16 Dimensions: 54.5mm x 321.5mm x 40.0mm [2.15" x 12.657" x 1.575"]; metric measurements take precedent This drawing is a graphical representation of the product and may not show all fine details. Reference File: M1881_FOR PRODUCTDATASHEET_11MARCH16 OPTIONAL ACCESSORIES Description 12V D1U54P Output Connector Card Part Number D1U54P-12-CONC APPLICATION NOTES Document Number ACAN-64 ACAN-66 Murata Power Solutions, Inc. 11 Cabot Boulevard, Mansfield, MA 02048 -1151 U.S.A. ISO 9001 and 14001 REGISTERED http://www.murata-p.com/support Description D1U54P Output Connector Card D1U54P-W-1500-12-HxxTC PMBus Protocol Link http://power.murata.com/datasheet?/data/apnotes/acan-64.pdf http://power.murata.com/datasheet?/data/apnotes/acan-66.pdf This product is subject to the following operating requirements and the Life and Safety Critical Application Sales Policy: Refer to: http://www.murata-ps.com/requirements/ 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. ©2016 Murata Power Solutions, Inc.. D1U54P-W-1500-12-HxxTC.A02 Page 8 of 8