For more information, please visit the product page. date 07/22/2015 page 1 of 19 SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY FEATURES • • • • • • redundant (N+1) operation blind mate connections for hot-swap constant power (CP) mode harmonic correction to EN61000-3-2, Class A DROOP current sharing single I/O connector for AC input, DC output & signals • remote on/off control • power good signal • optional 19” four slot power shelf • • • • • up to 3000 W continuous power 80 PLUS Platinum Efficiency PoE output isolation; (1500 Vrms to ground) high power density - 33.48 W/in3 PMBusTM communication for monitoring & control • dual fan forced cooling with speed control • front to back (-F) and back to front (-B) airflow versions • power factor correction • 3.3 Vdc (2A) standby voltage rt , I nc . T o of N C Rheinla nd UV h A ca meri US MODEL output voltage output current output power2,3 ripple and noise1 efficiency4 (Vdc) max (A) max (W) max (mVp-p) typ (%) PSE-3000-48-F 48 62.5 3000 480 94 PSE-3000-48-B 48 62.5 3000 480 94 PSE-3000-54-F 54 55.5 3000 540 94 PSE-3000-54-B 54 55.5 3000 540 94 Notes: 1. 2. 3. 4. 5. Measured at 20 MHz bandwidth at an oscilloscope jack on the output with 0.1 µF ceramic and 10 µF aluminum electrolyitc capacitors. At 90~180 Vac input, maximum of 1500 W. At 180~264 Vac input, maximum of 3000 W. At 230 Vac input, 3000 W. Meets 80 PLUS platinum efficiency requirements. All specifications measured at: Ta=25°C and 220 Vac input voltage unless otherwise specified. PART NUMBER KEY PSE-3000 - XX - X - CXX Base Number Reserved for Custom Configurations Output Voltage Airflow Direction: F = AC input connector to DC output connector B = DC output connector to AC input connector cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 2 of 19 INPUT parameter conditions/description min voltage typ 90 frequency 47 current at 90 Vac, 1500 W at 180 Vac, full load inrush current at 115 Vac, cold start at 230 Vac, cold start units 264 Vac 63 Hz 20.2 18.5 Arms Arms 20 40 leakage current power factor correction max at 230 Vac, full load A A 1.5 mArms max units 0.99 OUTPUT - V1 (MAIN OUTPUT) parameter conditions/description min typ line regulation ±3 load regulation ±3 load capacitance transient response 50% step load, 1A/µs slew rate, recovery to 1% within 1 ms start-up time % % 30,000 μF 3 % 5 at 230 Vac, full load remote sense between both output terminals 0.5 V current share accuracy (Droop) over 25% to 100% load ±10 % LED indicator 12 s hold-up time ms AC OK: “green” to indicate AC above the lower limit that is required to sustain normal operation DC OK: “green” to indicate module in normal operating condition OUTPUT - V2 (STANDBY OUTPUT) parameter conditions/description min output voltage typ max 3.3 output current 0 ripple and noise1 units Vdc 2 A 33 mVp-p line regulation ±5 % load regulation ±5 % load capacitance transient response 50% step load, 1A/µs slew rate, recovery to 1% within 1 ms start-up time Notes: 1000 µF 3 % 5 s max units 60 120 Vdc % 62.5 2.6 A A 1. Measured at 20 MHz bandwidth at an oscilloscope jack on the output with 0.1 µF ceramic and 10 µF aluminum electrolyitc capacitors. PROTECTIONS parameter conditions/description min over voltage protection V1: latch off V2: latch off 110 over current protection V1: constant current inception V2: hiccup over temperature protection at full load, auto recovery typ 55 cui.com °C For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 3 of 19 SAFETY & COMPLIANCE parameter conditions/description min insulation safety rating / test voltage input to output, reinforced input to chassis, basic 3,000 1,500 typ max units Vrms Vrms isolation voltage output to output output to chassis signals to chassis/ground V2 to chassis/ground 1,500 1,500 1,500 100 Vrms Vrms Vdc Vdc grounding The main output V1 is “floating” and not referenced to chassis/ground.The output control and status signals are referenced to the V2 output return connection. safety approvals EN60950-1:2006+A11+A1+A12, IEC609501:2005+Amd 1, CAN/CSA-C22.2 No.60950-107+A1:2011, UL 60950-1:2007 R12.11(NRTL Route), EEC/93/68/LVD, 2006/95/EC LVD conducted emissions FCC 15 Sub Part B, EN55022, Class A: 3dB margin tested with resistive load radiated emissions FCC 15 Sub Part B, EN55022, Class A: 3dB margin tested with resistive load harmonic compliance EN/IEC 61000-3-2:2009, Class A Harmonic Limits Compliance Level: 230 Vac line voltage; 100% output load flicker EN/IEC 61000-3-3:2009 limits as specified in the standard: flicker and voltage fluctuations electrostatic discharge EN/IEC 61000-4-2, ±8 kV operational air discharge, ±8 kV contact discharge: all parameters to remain within limits, test set up to be defined RF electro-magnetic field. amplitude modulated EN/IEC 61000-4-3 80~1000 MHz, 10V/m, 80% AM Modulation (1 kHz): all parameters to remain within limits, test set up to be defined immunity to fast transients EN/IEC 61000-4-4 Power lines: ±2 kV: all parameters to remain within limits, test set up to be defined surges (mains) EN/IEC 61000-4-5 ±1 kV line to line, ±2 kV line to earth, Criteria A: all parameters to remain within limits, test set up to be defined RF continuous conducted EN/IEC 61000-4-6 150 kHz~80 MHz 3Vrms 80% AM (1 kHz), Criteria A: all parameters to remain within limits, test set up to be defined voltage dips/ interruptions IEC 61000-4-11 30% reduction for 10 ms, 60% reduction for 100 ms: Reset is permitted must be selfrecovering. Additionally, the PSU shall not latch up during any brownout condition. MTBF as per Telcordia SR-332, Issue 2, Sept 2006 component stress method at Ta=25°C 916,000 hours RoHS 2011/65/EU WEEE 2012/19/EU ENVIRONMENTAL parameter conditions/description operating temperature full load, no derating storage temperature operating humidity min max units 0 50 °C non-condensing -40 70 °C non-condensing 10 90 % 5 90 % storage humidity cui.com typ For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 4 of 19 ENVIRONMENTAL (CONTINUED) parameter conditions/description acoustic ISO 7779-1999 cold1 IEC 68 Part 2 – 1: at -10°C minimum for 4 hours dry heat IEC 68 Part 2 – 2: at 50°C minimum for 4 hours damp heat, cyclic IEC 68 Part 2 – 30: at 20~45°C, 30~95 %RH low air pressure (operating) IEC 68 Part 2 – 13: at 10,000 feet, 697 mbar vibration (sinusoidal) IEC 68 Part 2 – 6: at 10~58 Hz, 0.075 mm; 58~500 Hz, 10 m/s2, 1 octave/minute, 10 cycles/ main axis 1 G shock IEC 68 Part 2 – 27: at 300 m/s2, 11 ms, half sine wave 3 shocks/main axis 30 G bump IEC 68 Part 2 – 29: at 150 m/s2, 6 ms, half sine wave 900 bumps/main axis 15 G Notes: min typ max units 60 dB LpAm 1. The module shall start up at -10°C, however it is not required that the full specification is achieved until the operational internal temperature has risen to 0°C. MECHANICAL parameter conditions/description dimensions 14.00 x 4.00 x 1.60 (355.6 x 101.6 x 40.6 mm) min typ 2.01 integral fans material flammability UL 94V-0 AC input IEC320/C14 DC output FCI PwrBlade P/N 51939-661LF mates with FCI P/N 51915-351LF MECHANICAL DRAWING units: inches [mm] tolerance: X.XX ±0.02 [0.50] X.XXX ±0.010 [0.25] D1 D2 D3 D4 D5 D6 C1 C2 C3 C4 C5 C6 B1 B2 B3 B4 B5 B6 P1 P2 P3 P4 P5 A1 A2 A3 A4 A5 A6 cui.com P6 P7 units inches weight cooling / airflow max P8 P9 kg For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 5 of 19 DC PIN ASSIGNMENTS PIN FUNCTION DESCRIPTION P1, P2, P3 V (-VE/return) V1 (-VE) output terminal P4, P5, P6 V (+VE) V1 (+VE) output terminal P7 earth/chassis ground protective/safety earth P8 neutral neutral or AC line#2 P9 signal pin column “1” signal pin column “2” signal pin column “3” signal pin column “4” signal pin column “5” signal pin column “6” line hot/AC line#1 A1 I2C address A0 I2C address - LSB B1 I2C address A1 I2C address bit C1 I2C address A2 I2C address - MSB HIGH / LOW LEVEL Imax internal pull up to 3.3 V D1 REMOTE_ON_L signal pin status output status open circuit “off” logic “1” “off” logic “0” “on” 3.3 mA A2 DC_OK_L “L” to indicate DC output is within regulation, there is no internal pull up resistor and it should be provided externally to support VCEO ≤ 20 Vdc, Ic ≤ 5 mA dc B2 AC_OK_L “L” to indicate AC above lower limit that is required for sustain normal operation, there is no internal pull up resistor and it should be provided externally to support VCEO ≤ 20 Vdc, Ic ≤ 5 mA dc >2.1 V <0.4 V -5 mA C2 PS_PRESENT_L detects presence of power supply, “low” when inserted, host system to provide pull up resistor capable of sourcing 5 mA >2.1 V <0.4 V -5 mA D2 Vstandby (+VE) V2 (+VE) output terminal >2.1 V <0.4 V -5 mA A3 I C/SMbus clock external 3.32 kΩ pull-up needed to 3.3 V -3 mA B3 I2C/SMbus data external 3.32 kΩ pull-up needed to 3.3 V -3 mA C3 SMBALERT communications (SMBus) alert D3 Vstandby (-VE) V2 (-VE) output terminal A4 n/a reserved B4 n/a reserved C4 OTP_OK_L temperature “OK” signal D4 n/a reserved A5 Spare/Vpgm analog VPGM signal 2 B5 n/a reserved C5 n/a reserved D5 n/a reserved A6 V1 -VE sense V1 negative sense connection B6 Ishare V1 current share option C6 n/a reserved D6 V1 +VE sense V1 positive sense connection cui.com >2.1 V <0.4 V -5 mA >2.1 V <0.4 V -5 mA For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 6 of 19 APPLICATION NOTES Digital Communication Feature Set The default method of digital communication shall utilize I2C hardware capable of operation at a minimum of 100 kHz clock (SCL) frequency. A mandatory feature of this module is that should either the module be disconnected from the incoming AC source (inserted in to a slot in an unpowered state); the module input fuse(s) fail; or the internal auxiliary supply (which derives the VCC of the I2C equipped device) fail, then any line associated with the I2C bus (SCL; SDA) should be disconnected (effectively tri-stated) from the I2C bus to prevent erroneous operation that may result from this unpowered condition. All I2C lines shall be “clean” and free from excessive spikes and common mode noise and comply with the requirements of the generic standard which defines I2C logic levels. The I2C hardware should conform to the requirements of the NXP (formerly Philips Semiconductor) Standard: UM10204 I2C Bus Specification and User Manual; Rev 0.3; 19 June 2007. The rectifier shall be capable of processing commands to monitor & control the rectifier via the digital bus by use of the following protocols: • CUI’s “standard” protocol – this shall be considered the “default” that shall be offered as a standard. • The PMBusTM (Power Management Bus) Protocol – this shall be considered the “optional” offering. I2C “Standard” Feature The following features will be offered as “standard” by the base product: Vital Product Data (VPD) This feature shall provide write-protected Vital Product Data (VPD) which shall include the following: • Revision level • CUI Date Code and origin of manufacture • CUI Serial number (from the product label) is the last 5 or 6 maximum numbers, and is padded with zeros to fit the PMBusTM variable as 8 bytes total Slave Addresses The product’s 7-bit I2C slave address is formed by determining the logic state of the address pins A0, A1 and A2. A pull-up resistor shall be supplied within the product for each address pin. The values of A0, A1 and A2 are set in the backplane of the system. Thus the device can be set to respond to all 7-bit addresses in the range from binary 1011 000 to 1011 111. The address pins shall be read once the micro-controllers have been initialized. To prevent hot swapping from latching the slave address to a specific slot in the enclosure, the software shall continuously read and update at an interval of 1 s the slave address accordingly. Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 1 0 1 1 A2 A1 A0 R/W cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 7 of 19 APPLICATION NOTES (CONTINUED) Digital Interface The product is provided with a digital communications interface that is based upon a subset of the SMBus™ & PMBusTM Protocols. The communication interface is a Two Wire Interface (TWI) using devices hardware compatible with I2C. The interface is based upon the I2C Protocol developed by Philips Semiconductors (now NXP). Reference to the “I2C Bus Specification and User Manual” UM10204 Rev.03 – 19 June 2007 is recommended. General Information Refer to the PMBusTM/SMBus specification for details on read/write operations when dealing with Byte, Word or Block process calls. Packet Error Correction (PEC) and Address Resolution Protocol (ARP) are not supported. If the PMBus™ master tries to read more bytes than the length of the data selected by the command code, the additional bytes will be sent as 0xFF. The PMBus™ slave device may apply clock stretching by holding the clock line (SCL) low after a command to indicate that it is busy processing data. A master device on the PMBus™ bus may attempt to continue with the communications but must first wait until the clock line is released. Clock stretching times will vary depending on the data being processed and/ or if there are any higher priority events occur during the response but shall not exceed 25 ms. cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 8 of 19 APPLICATION NOTES (CONTINUED) PMBus™ COMMAND SUBSET The following is subset of commands (extracted from the “PMBus™ Power System Management Protocol Specification; Part II Command Language; Rev 1.2, 6 September 2010”) and apply on a per module basis, (although certain commands could be applied “globally”). For a full definition of the individual command refer to the above referenced PMBusTM specification. Opcode (HEX) Command Name No. of Bytes Type Read / Write 01 OPERATION 1 Byte W The OPERATION command is used to turn the unit on & off in conjunction with the CONTROL (short; last make, first make pin). 03 CLEAR_FAULTS 0 N/A W Clear fault data latched at STATUS_WORD 19 CAPABILITY 1 Byte R Follows PMBus™ spec. 78 STATUS_BYTE 1 Byte R Lower byte returned from the STATUS_WORD 79 STATUS_WORD 2 Word R The command returns two bytes of data relating to the unit fault condition. 88 READ_VIN 2 Word R Provides the measured input voltage of the power module. (Divide decimal value by 100) 89 READ_IIN 2 Word R Provides the measured input current of the power module. (Divide decimal value by 100) 8B READ_VOUT 2 Word R Provides the measured output voltage of the power module. (Divide decimal value by 100) 8C READ_IOUT 2 Word R Provides the measured output current of the power module. (Divide decimal value by 100) 8D READ_TEMPERATURE_1 2 Word R This command shall return the prevailing internal ambient of the power module, in degrees Celsius. 8E READ_TEMPERATURE_2 2 Word R This command shall return a select component temperature used by the power module, in degrees Celsius. 8F READ_TEMPERATURE_3 2 Word R This command shall return a select component temperature used by the power module, in degrees Celsius. 90 READ_FAN_SPEED_1 2 Word R Provides the measured fan speed (RPM) in the power module. 91 READ_FAN_SPEED_2 2 Word R Provides the measured fan speed (RPM) in the power module. 96 READ_POUT 2 Word R This command shall return the calculated output being delivered by the power module, in Watts. (Divide value by 10) 97 READ_PIN 2 Word R This command shall return the calculated input being drawn by the power module, in Watts. (Divide value by 10) 98 PMBusTM_REVISION 1 Byte R PMBus™ Revision 99 MFR_ID 8 Block R The command returns the ASCII string for manufacturer’s ID. 9A MFR_MODEL 12 Block R The command returns the ASCII string manufacturer’s model. 9B MFR_REVISION 2 Block R The command returns the ASCII string manufacturer’s revision (example case “A0”). 9C MFR_LOCATION 8 Block R The command returns the ASCII string manufacturer’s revision (example case “TORONTO”). 9D MFR_DATE 4 Block R The command returns the ASCII string manufacturer’s date code (example case “0913”). 9E MFR_SERIAL 8 Block R The command returns manufacturers serial number. Command Description cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 9 of 19 APPLICATION NOTES (CONTINUED) PMBus™ Non-Standard Extended Command Subset Opcode (HEX) Command Name No. of Bytes Type Read / Write 16 FIRMWARE_REVISION 4 Block R Read vendor specific firmware revision (ASCII string). Example case “A100” 17 BUILD 4 Block R Read vendor specific Build (ASCII string) 20 AUXILIARY_VOLTAGE 2 Word R Provides the measured output auxiliary voltage of the power module. (Divide decimal value by 100) 8D READ_TEMPERATURE_4 2 Word R This command shall return a select component temperature used by the power module, in degrees Celsius. 8E READ_TEMPERATURE_5 2 Word R This command shall return a select component temperature used by the power module, in degrees Celsius. Command Description Remote On/Off (PMBus™Operation Command 0x01) This command can be used to turn the unit on and off via the PMBus™ interface. If D1 (REMOTE_ENABLE) is LOW (enabled) then the PMBus™ Remote On/Off function can turn the unit off and on. If D1 (REMOTE_ENABLE) is HIGH (disabled) then the PMBus™ Remote On/Off function cannot turn the unit on or off and can be ignored. The bit encoding of the data byte of the command is as follows. Bits [7:6] Bits [5:4] Bits [3:2] Bits [1:0] Unit State 00 XX XX XX Off 01 XX XX XX Off 10 00 XX XX On 10 01 00 XX No change 10 01 11 XX No change 10 01 01 XX On 10 01 10 XX On 10 10 01 XX On 10 10 10 XX On 10 10 11 XX No change 10 11 XX XX No change 11 XX XX XX No change cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 10 of 19 DEMO BOARD Accessories Description CUI Part Number Demo Board1 01T-152501-1 DC Output Mating Connector 22P-S00061-4 Vendor/Part Number FCI 51915-351LF I2C dongle2 Microchip DV164122 Demo Board AC power cord CNC Tech 800-12-32D-BL-0003F 3 Notes: 1. This demo board is intended for user connection to evaluate the power supply in the laboratory by qualified personnel. Please take necessary safety precautions during product evaluation. 2. The PICkit Serial Analyzer is an USB-based tool used to direct communication between a PC and an external serial device. The kit comes complete with hardware (supporting I2C™, SMBus, SPI and USART protocols), an easy-to-use GUI (to configure and display communications) and a target demonstration board for out-of-the-box functionality. http://www.microchip.com/stellent/idcplg?IdcService=SS_GET_PAGE&nodeId=1406&dDocName=en028600 3. For North American use only Demo Board Power Connections Demo Board Connections/Settings J1 +48V Output P1 J2 48V Return P2 J9 + Standby Output 1 Logical Return J8 Standby Output Return 2 Remote ON (override by P6) AC & DC Mating Connector Control & Status Signals 3 Present 4 AC_OK 5 DC_OK 6 OTP P3 I2C Dongle Connection 1 SMB 2 SCL 3 SDA 4 Logical Return 5 VDD 6 NC P4 Jumper to Local Sense+, remove jumper for remote sense P5 Jumper to Local Sense-, remove jumper for remote sense P6 Jumper to ON, remove jumper for Remote ON/OFF P7 Jumper to set I2C A2 = 0, remove jumper to set address by host P8 Jumper to set I2C A1 = 0, remove jumper to set address by host P9 Jumper to set I2C A0 = 0, remove jumper to set address by host P11 Control & Status Signals 1 48V Return 2 SENSE- (override by P5) 3 ISHARE (optional force sharing) 4 SENSE+ (override by P4) 5 Vpgm 6 NC cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 11 of 19 POWER SHELF Shelf Power Power Shelf Model Number Power Module Model Number Airflow Direction 110 Vin 220 Vin PPR-1U PSE-3000-48-F or PSE-3000-54-F Front to Back 6,000 W 12,000 W All Parallel, dual polarity terminal block C22 PPR-1U-A PSE-3000-48-F or PSE-3000-54-F Front to Back 6,000 W 12,000 W A & B Feed, dual polarity terminal block C22 PPR-1U-B PSE-3000-48-B or PSE-3000-54-B Back to Front 5,400 W 12,000 W All Parallel, dual polarity terminal block C20 PPR-1U-C PSE-3000-48-B or PSE-3000-54-B Back to Front 5,400 W 12,000 W A & B Feed, dual polarity terminal block C20 PPR-1U-D PSE-3000-48-F or PSE-3000-54-F Front to Back 6,000 W 12,000 W All Parallel, single polarity terminal block C22 PPR-1U-E PSE-3000-48-B or PSE-3000-54-B Back to Front 5,400 W 12,000 W All Parallel, single polarity terminal block C20 PPR-1U, PPR-1U-A, PPR-1U-D - FRONT TO BACK AIRFLOW PPR-1U-B, PPR-1U-C, PPR-1U-E - BACK TO FRONT AIRFLOW cui.com Standby Output IEC Inlet Type For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY POWER SHELF (CONTINUED) PPR-1U, PPR-1U-A, PPR-1U-D - FRONT TO BACK AIRFLOW cui.com date 07/22/2015 │ page 12 of 19 For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY POWER SHELF (CONTINUED) PPR-1U-B, PPR-1U-C, PPR-1U-E - BACK TO FRONT AIRFLOW cui.com date 07/22/2015 │ page 13 of 19 For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 14 of 19 POWER SHELF (CONTINUED) PPR-1U & PPR-1U-B Output Terminal Block Configuration All 4 power modules wired in parallel inside the power shelf, 12 kW available from each output + - + - PPR-1U-A & PPR-1U-C Output Terminal Block Configuration Each terminalblock wired to 2 power modules, 6 kW available from each output + - + - PPR-1U-D & PPR-1U-E Output Terminal Block Configuration All 4 power modules wired in parallel inside the power shelf, one single output through both terminal block, 12 kW available from each output - + + cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 15 of 19 ASSEMBLY INSTRUCTIONS Chassis Grounding A ground stud is provided at the rear of the power shelf as shown below. Earth ground stud nut #10-32 to be torqued 16 to 19 in-lbs typical. Bracket Attachment The mounting brackets are factory attached in the flush position. The mounting brackets can be repositioned by customer, however the #6-32 mounting screws to be reattached with typical torque of 6 to 8 in-lbs. cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 16 of 19 ASSEMBLY INSTRUCTIONS (CONTINUED) Output Cable Connection The Output and Return Cables (#2 AWG wire on 1/4” slud - not provided) to be A ground stud is provided at the rear of the power shelf as shown below. Earth ground stud nut #10-32 to be torqued 16 to 19 in-lbs typical. AC Line Cord Connection The power shelf is not shipped with AC line cords and the customer is responsible to provide its own AC line cords to meet the respective local electrical code requirements. cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 17 of 19 ASSEMBLY INSTRUCTIONS (CONTINUED) Slot 2 Slot 1 A2 Address Switch Slot 4 Slot 3 Address Slot 1 Slot 2 Slot 3 Slot 4 DOWN 000 001 010 011 UP 100 101 110 111 cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 18 of 19 ASSEMBLY INSTRUCTIONS (CONTINUED) V Standby Output Connector A2 Address Switch D-Sub 9 I2C communication The 2 D-Sub connector signals are parallel inside the power shelf V Standby Output Connector, Mating Connector Molex 39-01-2020, terminals 39-00-0038 Connector - Pin# Signal Name Function 1 (lower position) +3.3 STANDBY +3.3 VDC +VE Output 2 (upper position) +3.3 STANDBY RTN +3.3 VDC –VE Output System Interface Connection D sub 9 pin (female) System to Shelf Shelf to Shelf SDA 1 Yes Yes SCL 2 Yes Yes Not used 3 Vpgm 4 Yes Yes Vpgm Return 5 Yes Yes Digital Return 6 Yes Yes SMB Alert 7 Yes Yes Not used 8 I-Share 9 Yes Yes A2 Address Switch, UP position for “1”, DOWN position for “0” Accessories Description CUI Part Number Vendor/Part Number D-Sub 9 male to male cable Assmann WSW Components AK174-3 Vstandby Output Mating Connector Molex 39-01-2020 I C dongle 2 Microchip DV164122 1 I2C dongle to D sub 9 cable 014-157401-4 Notes: 1. The PICkit Serial Analyzer is an USB-based tool used to direct communication between a PC and an external serial device. The kit comes complete with hardware (supporting I2C™, SMBus, SPI and USART protocols), an easy-to-use GUI (to configure and display communications) and a target demonstration board for out-of-the-box functionality. cui.com For more information, please visit the product page. CUI Inc │ SERIES: PSE-3000 │ DESCRIPTION: AC-DC HOT-SWAP POWER SUPPLY date 07/22/2015 │ page 19 of 19 REVISION HISTORY rev. description date 1.0 initial release 05/07/2015 1.01 updated datasheet 06/11/2015 1.02 updated datasheet 07/22/2015 The revision history provided is for informational purposes only and is believed to be accurate. Headquarters 20050 SW 112th Ave. Tualatin, OR 97062 800.275.4899 Fax 503.612.2383 cui.com [email protected] CUI offers a two (2) year limited warranty. Complete warranty information is listed on our website. CUI reserves the right to make changes to the product at any time without notice. Information provided by CUI is believed to be accurate and reliable. However, no responsibility is assumed by CUI for its use, nor for any infringements of patents or other rights of third parties which may result from its use. CUI products are not authorized or warranted for use as critical components in equipment that requires an extremely high level of reliability. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.