D1U86P-W-1600-12-HB3DC

D1U86P-W-1600-12-HBxDC Series 86mm 1U Front End AC-DC Power Supply PRODUCT OVERVIEW The D1U86P-W-1600-12-HBxDC products are high efficiency 1600 watt, power factor corrected front end supplies with a 12V main output and a 12V (30W) standby. They have current sharing and up to 8 supplies may be operated in parallel. The supplies may be hot plugged, they recover from over-temperature faults, and have logic and PMBus™ monitoring and control. Their low profile 1U package and >38.6W/cubic inch power density make them ideal for delivering reliable, efficient power to servers, workstations, storage systems and other 12V distributed power systems. NB: D1U86P-W-1600-12-HB3DC Model Shown FEATURES ORDERING GUIDE Power Output; AC Line Main Standby Airflow (90-264V) (108-264V) (180-264V) Output Output Back to D1U86P-W-1600-12-HB4DC Front 1200W 1350W 1600W 12V 12V Front to D1U86P-W-1600-12-HB3DC Back  1600W output power Part Number  94% minimum efficiency at 50% load  12V main output  12V standby output of 30W  1U height: 3.4" x 7.78" x 1.59" Handle Colour Red Blue  38.6 Watts per cubic inch density  N+1 redundancy, including hot plugging (up to 8 in parallel)  Droop Current sharing both outputs  Overvoltage, overcurrent, overtemperature protection  Internal cooling fan (variable speed)  PMBus™ / I²C interface monitoring and control  RoHS compliant  Two Year Warranty www.murata-ps.com/en/3d/acdc.html www.murata-ps.com/en/3d/acdc.html www.murata-ps.com/en/3d/acdc.html www.murata-ps.com/en/3d/acdc.html www.murata-ps.com/en/3d/acdc.html www.murata-ps.com/en/3d/acdc.html Available now at: http://power.murata.com/en/3d/acdc.html For full details go to www.murata-ps.com/rohs INPUT CHARACTERISTICS Parameter Input Voltage Operating Range Frequency Turn-on Voltage Turn-off Voltage Maximum Input Current Inrush Current Power Factor Efficiency (230Vac) excluding fan load Conditions Ramp up Ramp down 1200W, 100Vac At 264Vac at 25°C cold start At 230Vac, half load 20% load 50% load 100% load OUTPUT VOLTAGE CHARACTERISTICS Output Parameter Voltage Voltage Set Point Line and Load Regulation Droop Ripple Voltage & Noise1 12V Output Current (230 Vac)2 Output Current (120 Vac)2 Output Current (100 Vac)2 Load Capacitance Voltage Set Point 12VSB Ripple Voltage & Noise1 Output Current 1 Min. 90 47 81 70.5 90 94 91 Nom. 115/230 50/60 73 0.98 Max. 264 63 89 78 14.1 35 Units Vac Hz Vac Arms Apk % Conditions Min. Typ. Max. Units 50% load 12.17 11.4 12.2 12.23 12.6 Vdc 20MHz Bandwidth 50% load 20MHz Bandwidth 3.10 0 0 0 11.97 0 12.0 120 133.4 112.5 100.0 10,000 12.02 120 2.5 mV/A mV p-p A A A μF Vdc mV p-p A Ripple and noise measured with a parallel combination of a 1.0μF ceramic and 10μF tantalum capacitor on each of the power module outputs. A short coaxial cable connected directly to the input of a scope is required. 2 To meet ripple and transient step load specifications a minimum load of 4A is required. Certificate and Test Report www.murata-ps.com/support D1U86P-W-1600-12-HBxDC.A03 Page 1 of 7 D1U86P-W-1600-12-HBxDC Series 86mm 1U Front End AC-DC Power Supply OUTPUT CHARACTERISTICS Parameter Output Rise Monotonicity Startup Time Transient Response Current sharing accuracy (up to 8 in parallel) Hot Swap Transients Holdup Time 3 3 Conditions No voltage excursion AC ramp up 12V, 50% load step, 1.0Aμs di/dt 12VSB, 50% load step,1.0Aμs di/dt At 100% load All outputs remain in regulation At full load Min. Typ. Max. Units 1.5 600 600 3 s mV ±5 5 12 % % ms Load current of 100% applies to each power module max load connected in an N+1 configuration; therefore the total load will be “N” x 100%. The share accuracy of ±5% is a fixed percentage irrespective of total loading and number of units connected in parallel. ENVIRONMENTAL CHARACTERISTICS Parameter Storage Temperature Range Operating Temperature Range Operating Humidity Storage Humidity Altitude (without derating at 45°C) Shock Vibration MTBF Acoustic Safety Approvals Input Fuse Weight 30G non-operating 10-500Hz, 0.5G (non-operational) Per Telcordia SR-322 M1C1@40°C Typ. Max. 85 55 90 95 Units °C % m 559K 65 hrs dBA/@1m CSA 60950-1-07+A1:2011 ANSI/UL 60950-1-2011, Second Edition IEC 60950-1:2005 (2nd Edition) + A1:2009 EN 60950-1:2006 +A11+A1+A2 2.33/1.06 Overtemperature (intake) Overvoltage Overcurrent at 220Vac Overcurrent at 120Vac 12VSB Noncondensing Min. -40 0 5 5 3000 Power Supply has internal 16A/250V fast blow fuse on the AC line input PROTECTION CHARACTERISTICS Output Parameter Voltage 12V Conditions Overvoltage Overcurrent ISOLATION CHARACTERISTICS Parameter Insulation Safety Rating / Test Voltage Conditions Min. An OTP warning will be issued via the PMBus™ interface when the air inlet exceeds 65°C; however the power module shall not shut down until critical internal hotspot temperatures are exceeded. Typ. Max. lbs/Kg Units 65 °C 13.2 14.4 140 153 118 129 13.2 2.75 14.4 3 V A Max. Units Vrms V Latching Shutdown of the output followed by autorecovery after one second. The output shall attempt three such auto-recovery attempts and then enter a permanent latched state. Recovery of the permanent latched state shall require cycling of the incoming AC source or toggling of the PSON# signal. Latching Auto-recovery Conditions Input to Output - Reinforced Min. 3000 Input to Chassis - Basic 1500 Vrms 500 Vdc Isolation Output to Chassis Leakage Current 1.5mA at 264Vac, 50/60Hz Typ. A www.murata-ps.com/support D1U86P-W-1600-12-HBXDC.A03 Page 2 of 7 D1U86P-W-1600-12-HBxDC Series 86mm 1U Front End AC-DC Power Supply EMISSIONS AND IMMUNITY Characteristic Input Current Harmonics Voltage Fluctuation and Flicker Conducted Emissions ESD Immunity Radiated Field Immunity Electrical Fast Transient Immunity Surge Immunity Radiated Field Conducted Immunity Magnetic Field Immunity Standard IEC/EN 61000-3-2 IEC/EN 61000-3-3 FCC 47 CFR Part 15/CISPR 22/EN55022 IEC/EN 61000-4-2 IEC/EN 61000-4-3 IEC/EN 61000-4-4 IEC/EN 61000-4-5 IEC/EN 61000-4-6 IEC/EN 61000-4-8 Voltage dips, interruptions IEC/EN 61000-4-11 Compliance Complies Complies Class A, 6dB margin Level 3 criteria A Level 3 criteria B Level 3 criteria A Level 3 criteria A Level 3 criteria A 3 A/m criteria B 230Vin, 100% load, Phase 0°, Dip 100% Duration 10ms (A) 230Vin, 50% load, Phase 0°, Dip 100% Duration 20ms (VSB:A, V1:A) 230Vin, 100% load, Phase 0°, Dip 100% Duration > 20ms (VSB, V1:B) STATUS AND CONTROL SIGNALS Signal Name PSOK (Output OK) I/O Output Description Interface Details The PSOK output is a logical “OR” of three internal signals; however the output is not strictly a “digital” signal that transitions between “low” and “high” but is analogue in nature. The internal logic signals are as follows: 1. DC_OK_H 2. PWR_GOOD_H 3. PS_FAULT_L The following is a “truth table” that shows the analogue levels of operation of the signal dependent upon the three internal logic signals: PSOK TRUTH TABLE VS. ANALOG OUTPUT Each internal signal is buffered and provided with a series or pull up resistor: DC_OK_H PWR_GOOD_H PS_FAULT_L PSOK OPERATION MODE 0 0 1 < 0.1Vdc No AC Input 0 1 1 (1/3) VDD Invalid 1 0 1 (2/3) VDD VDD = 3.3Vdc Standby 1 1 1 VDD Power Good X X 0 0.2-0.4Vdc PS Fault The timing relationship of this signal is shown in the Timing Specification section that follows. PS_INTERRUPT (FAULT/WARNING) Output The signal output is driven low to indicate that the power supply has detected a warning or fault and is intended to alert the system. This output must be driven high when the power is operating correctly (within specified limits). The signal will revert to a high level when the warning/fault stimulus (that caused the alert) is removed. PRESENT# Output Based on the industry standard Common Slot requirement this signal is used to detect the presence of an (installed) power module within the host system. However it is also intended to “Enable” the Main 12Vdc output. The signal is also designed to control the power module during hot plug insertion/extraction in conjunction with the host system and is provided on a short “last to make; first to break” signal pin. To “enable” the Main 12Vdc output the signal requires to be pulled “high” with respect +12V_GND. In the host system. The value of the pull up resistor is as follows: 1. If the signal is to be pulled up to the 12VSB output then the resistor value should be 21KΩ 2. If the signal is to be pulled up to a 3.3Vdc rail (locally derived within the host system) then the resistor value should be 5.11KΩ PS_ON (Power Supply Enable/Disable Input ADDR (Address Select) Input The PS_ON can be permanently connected to +12V_GND (via the host system mid/back plane) to “enable” the Main 12Vdc output. Alternatively the signal can be connected via the host system electronics to provide the ability to switch between “enable/disable” states. The 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 +12V_GND. In the low state the signal input shall source a nominal 1.2mAdc. 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. An analogue input that is used to set the address of the internal slave devices (EEPROM and microprocessor) used for digital communications. Connection of a suitable resistor to +12V_GND, in conjunction with an internal resistor divider chain, will configure the required address. 1. DC_OK_H; 1K62 series resistor 2. PWR_GOOD_H; 3K32 series resistor 3. PS_FAULT_L; a 10K pull up resistor to VDD_OR (an internally derived 3.3VDC rail) The embedded truth table shows the appropriate levels. Pulled up internally via 10K to 3.3Vdc. A logic high >2.0Vdc A logic low 2.0Vdc A logic low