HDS1500PS12

HDS1500 Series 1500W AC-DC POWER SUPPLIES CONVECTION COOLED The HDS1500 series offers users both output voltage and output current programming (0– 105%) via resistance, voltage or I2C bus in a very high efficiency, high power density 1.5kW chassis mount package. Measuring just 12.32” x 2.5” x 5.0”, the HDS1500 also features active current sharing, remote on/off, remote sense and a power OK signal. The standby output is available whenever the mains supply is present and can be user selected as either 5V at 0.5A or 9V at 0.3A. Applications Features • High Efficiency up to 92% • High Power Density Industrial Electronics • Programmable Output Voltage (0-105%) Lasers LED Heating Robotics • Programmable Output Current (0-105%) • Parallel Operation Dimensions • Fully Featured Signals & Controls 12.32” x 2.50” x 5.00” (294.5 x 63.5 x 127mm) • 3 Year Warranty Models & Ratings Output Current Model Number Output Voltage V1 HDS1500PS12 12.0VDC 0.0A HDS1500PS15 15.0VDC 0.0A HDS1500PS24 24.0VDC 0.0A HDS1500PS30 30.0VDC 0.0A HDS1500PS36 36.0VDC HDS1500PS48 48.0VDC HDS1500PS60 60.0VDC Notes: 1. Measured with 230VAC input and full load. Efficiency(1) Output Power 125.0A 89% 1500W 100.0A 90% 1500W 62.5A 91% 1500W 50.0A 92% 1500W 0.0A 41.7A 92% 1500W 0.0A 31.3A 92% 1500W 0.0A 25.0A 93% 1500W Min Max HDS1500 Series AC-DC POWER SUPPLIES Input Characteristic Minimum Input Voltage Input Frequency Typical Maximum Units Notes & Conditions 90 264 VAC See derating curve 47 63 Hz Input Current 18/9 A 115/230VAC Inrush Current 30/60 A 115/230VAC 1.0 mA Maximum Units Notes & Conditions 60 VDC See Models & Ratings table 0.99/0.98 Power Factor 115/230VAC Full load Earth Leakage Current 264VAC/60Hz F20 A/250 V internal fuse Input Protection Output Characteristic Minimum Typical 12 Output Voltage ±5.0 Output Trim % By potentionmeter Output Voltage Program 0 105 % Of rated output Output Current Program 0 105 % Of rated output (1) Voltage Tolerance ±2 % Of rated output voltage(1) Current Tolerance(1) ±3 % Of rated output current(1) 1 s 120 ms Minimum Load No minimum load required Start Up Delay Start Up Rise Time Hold Up Time 8 At full load ms ±1 % ±1 % V1, 0-100% load ±3 % 5V standby, 0-100% load Transient Response 1 % For a 25% step load change Ripple & Noise 1 % pk-pk Line Regulation Load Regulation 1.25% for 12V model. Measured with 20 MHz bandwidth and using 12” twisted pair wire terminated with 0.1μF ceramic capacitor and 47μF electrolytic. Overvoltage Protection Tracks output voltage. See application notes, recycle AC to reset Overtemperature Protection Primary and secondary heatsinks monitored. Output shuts down, auto recovers Overload Protection Short Circuit Protection Temperature Coefficient 105 % ±0.02 %/°C Rated power, constant current Auto recovery 0-50°C Remote Sense Compensates for 0.5V max voltage drop If remote sense is not required, local sense must be used Enable Output must be enabled. See application notes, power supply is shipped with enable links fitted Current Share 5 supplies can share within 5% Standby Output 5V at 0.5A, present whenever AC is applied (9V at 0.3A, user selectable, by connecting ‘VSET’, Pin 8 of CN2 to ‘GND’) Notes: 1. Tolerance includes setup time tolerance, line regulation and load regulation. 2 HDS1500 Series AC-DC POWER SUPPLIES Output Output Voltage Programming Via External Voltage Via External Resistor Via External Voltage Via External Voltage Via External Resistor Via External Resistor 100 100 60 80 40 60 20 40 0 20 120 80 100 60 80 40 60 20 40 0 0 01 20 01 0 23 4.5 4.8 4 5 4.5 4.8 34 12 23 34 4.5 4.8 45 100 100 100 60 80 40 60 20 40 0 5 4.5 4.8 120 120 80 20 Programming Programming Voltage (VDC)Voltage (VDC) 0 0 12 120 Output Voltage (%) Output Voltage (%) 100 120 80 Via External Resistor Via External Resistor Output Voltage (%)Voltage (%) Output 120 Output Voltage (%) Output Voltage (%) Output Voltage (%)Voltage (%) Output Via External Voltage Via External Voltage 120 120 80 100 60 80 40 60 20 40 0 0 01 0 12 23 3 4 4.5 4.8 4 5 4.5 4.8 5 Value (kΩ) Resistor ValueResistor (kΩ) 0 0 5 01 20 Programming Programming Voltage (VDC) Voltage (VDC) 12 23 34 4.5 4.8 45 4.5 4.8 5 Resistor Value (kΩ) Resistor Value (kΩ) Output Current Programming Via External Resistor 120 120 100 100 100 120 80 100 60 80 40 60 20 40 0 20 0 120 80 100 60 80 40 60 20 40 0 20 01 0 23 34 4.5 4.8 4 5 4.5 4.8 5 Programming Programming Voltage (VDC)Voltage (VDC) 0 0 12 01 12 23 34 4.5 4.8 45 4.5 4.8 5 Output Current (%) Output Current (%) 120 100 Output Current (%)Current (%) Output 120 Output Current (%) Output Current (%) Output Current (%)Current (%) Output Via External Voltage 120 80 100 60 80 40 60 20 40 0 20 0 120 80 100 60 80 40 60 20 40 0 20 01 01 0 Efficiency Typical 89 Maximum 93 Units % Isolation: Input to Output VAC Input to Ground 1500 VAC Output to Ground 500 VAC 65 40 200 9.7 Power Density kHz Weight 23 34 4.5 4.8 45 4.5 4.8 5 Notes & Conditions PFC converter PWM, variable W/in 3 Enable, Current Share, V Program, I Program, 5 V Standby, Power OK Signals and Controls Mean Time Between Failure 12 230VAC Full load 3000 Switching Frequency 5 Via External Resistor Via External Resistor Via External Voltage Via External Voltage Minimum 4 5 4.5 4.8 Via External Resistor Via External Resistor Via External Voltage Via External Voltage Characteristic 3 4 4.5 4.8 Resistor Value (kΩ) Resistor Value (kΩ) Programming Programming Voltage (VDC) Voltage (VDC) General 23 Value (kΩ) Resistor ValueResistor (kΩ) 0 0 12 115 khrs 5.7 (2.6) lb (kg) MIL-HDBK-217F, Notice 2 25°C GB Specifications subject to change without notice. 3 CN9 20 20 0 0 0 CN9 CN9 20 ACI15 VCI EN- EN+ 15 20 V SB 5VSACI PWM VCI PWM EN- 5 EN+ VS- 1VS+ 1 V SBVS+ V SB 5VO16 0PAR V SBVO+ 0 16GND GND GND GND5GND VO- 2VO+ 2 PAR GND GND GND CN9 EN- EN+ 15 ACI15 VCI V SB 5VSACI PWM VCI PWM EN- 5 EN+ VS- 1VS+ 1 V SBVS+ 1.2-4.81.2-4.8 V V SB 5 VOVO+ 16 VPAR V SB GND GND GND5GND VO- 2VO+ 2 PAR GND GND GND 16GND HDS1500 Series 1 0 2 1 3 2 4 3 Programming Voltage (VDC) Programming Voltage (VDC) 4 4.5 4.8 5 4.5 4.8 5 0 1 0 2 1 3 2 Resistor Value (k Ω ) 3 Resistor Value (k Ω ) 4 4.5 4.8 5 4.5 4.8 5 4 AC-DC POWER SUPPLIES Output OutputCurrent CurrentProgram Program Via External 5 V SBVoltage 5 V SB Via External Voltage 2KΩ 100 Characteristic Output Current(%) Output Current(%) 100 80 Operating Temperature 5V 2KΩ EN+ Minimum 5V 80 -25 EN- -40 Storage 60 Temperature 60 GND 5 V SB SW 2KΩ Typical Maximum OFF Power OFF OFF Power OFF ON Power ON ON Power ON 5V 5 V SB EN+ 2KΩ EN+ Units L H 5V +60 EN- °C EN- +85 100 Notes & Conditions 100 Power OFF L Power OFF Power ON H Power ON EN- °C GND GND 5 V SB Power OFF Via External Resistor 5OFF V SB OFF Power OFF Via External ON Power Resistor ON ON Power ON 120 120 GND 5V 40 20 Humidity 20 20 90 (A) Using(A) internal V standby Using5internal 5 V standby 0 Vibration 0 %RH L/H 60 60 1 0 2 1 2 3 4 3 Programming Voltage (VDC) Programming Voltage (VDC) 4.5 4.5 4 EN+ SW 5V SW 5V 5V GND GND GND 40 20 20 (C) Using (C) external Using voltage externalsource voltage source 10-500 Hz, 10 min/cycle, 60 min period for each axis, compliant to 0 0 IEC68-2-6, IEC 68-2-64 g 5 EN+ 2KΩ L/H GND (B) Using (B) external Using transistor external transistor 2 2KΩ 80 Derate linearly from 100% load at 50°C to 60% load at 60°C EN80 EN- Internal fan fitted, speed increases with load and internal temperature 40 Cooling 40 0 SW EN+ Output Current (%) Output Current (%) Environmental 120 120 0 5 0 1 2 1 3 2 4 3 Resistor Value (k Ω) Resistor Value (k Ω) 4 4.5 4.5 5 Derating Curve Remote RemoteEnable Enable Thermal Derating Curve Input Derating Curve *GND shown in the diagram (below) is referring to the GND of CN2, not the Grounding from output power (V-) *GND shown in the diagram (below) is referring to the GND of CN2, not the Grounding from output power (V-) AUX AUX Load (%) AUX AUX 60 40 Load (%) 80 100 SW SW EN+ EN+ 80 60 ENEN- OFF Power OFF OFF Power OFF ON Power ON ON Power ON 2KΩ 2KΩ AUX AUX 100 90 90 EN+ EN+ ENEN- 80 L Power OFF L Power OFF H Power ON H Power70 ON -10 0-10 10 0 2010 3020 4030 5040 6050 7060 40 GND GND 40 2KΩ 2KΩ AUX AUX 90 70 Temperature (˚C) Temperature (˚C)(B ) Us ing externa l tra ns is tor (A) Us ing interna l a uxillia ry s tAmbient a nd b y Ambient (A) Us ing interna l a uxillia ry s ta nd b y (B ) Us ing externa l tra ns is tor 90 100 EN+ EN+ SW SW ENEN- 60 50 GND GND GND GND 20 60 70 AUX AUX L/H 50 L / H 40 20 80 Load (%) 100 2KΩ 2KΩ 100 Load (%) AUX AUX OFF Power OFF OFF Power OFF ON Power ON ON Power ON External DC source External DC source (Max = 9Vdc) (Max = 9Vdc) GND GND 264 100 110 110 120 120 264 Input (Voltage C )Input Us i(VAC) nVoltage g exte(VAC) rna l volta g e s ourc e (C ) Us ing externa l volta g e s ourc e External Programming Voltage External Programming Voltage Connection External Programming VoltageConnection Connection CTRL CTRL VCI/ACI VCI/ACI Power Supply Power Supply IC=1mA IC=1mA IC=1mA IC=1mA IC=1mA IC=1mA I-sink I-sink min 1mA min 1mA + - + - A/D A/D PWM PWM CTRL CTRL VCI/ACI VCI/ACI Power Supply Power Supply 220R 220R 0-5VDC 0-5VDC CTRL CTRL VCI/ACI VCI/ACI VC = IC x R VC = IC x R R=0-5K R=0-5K Power Supply Power Supply 4 5 105 100 100 HDS1500 Series Output Current (%) Output Current (%) 90 80 70 Signals 60 & Controls LED Status 50 DC Output OK Solid (Green) Solid (Orange) 1.6 DC Output OK in remote control mode 2.5 3.0 3.5 4.0 4.2 4.5 Output Not Voltage Enabled(VDC) External 2.0 Slow Blink (Green) Fast Blink (Red) Over Voltage Solid (Red) Over Loaded 11.5 5.0 23 50 External Resistor (KΩ) CN9 15 ACI Slow Blink (Red) 1.2-4.8 V 60 40 Output Status 40 AC-DC POWER SUPPLIES 80 200 Open CN9 VCI PWM EN- EN+ 5 V SB VS- VS+ 1 15 ACI Over Temperature VCI PWM EN- EN+ 5 V SB VS- VS+ 1 16 PAR GND GND GND GND 5 V SB VO- VO+ 2 GND GND 5 V SB VO- VO+ 2 16 PAR GND GND Fan Fail Intermittent Blink (Red) AUX Standby Failure Short & Long Blink (Red) Remote Enable 2KΩ SW EN+ 2KΩ OFF Power OFF ON Power ON 5V 5 V SB 5 V SB 5 V SB 2KΩ EN+ L H 5V EN- EN- GND GND OFF Power OFF ON Power ON EN+ SW Power OFF Power ON 5V 5V EN- L/H (A) Using internal 5 V standby GND GND (B) Using external transistor (C) Using external voltage source *GND shown in above diagram is referring to the GND of CN2, not the grounding from output power (NEG (-)) EMC: Emissions Phenomenon Standard Test Level Conducted EN55032 Class A EN55032 Class A EN61000-3-2 Class A Radiated Harmonic Currents 100 Voltage Flicker Notes & Conditions 100 EN61000-3-3 90 80 Load (%) Load (%) 80 60 40 70 60 50 20 -10 40 0 10 20 30 40 50 60 70 90 100 110 120 264 Input Voltage (VAC) Ambient Temperature (˚C) Specifications subject to change 26 Jan 2022without notice. 5 HDS1500 Series AC-DC POWER SUPPLIES EMC: Immunity Phenomenon Standard Test Level Criteria ESD Immunity EN61000-4-2 2/3 A Radiated EN61000-4-3 3 A EFT/Burst EN61000-4-4 3 A Surges EN61000-4-5 Installation class 3 A Conducted EN61000-4-6 3 A Magnetic Field EN61000-4-8 EN55035 Dips and Interruptions ±4kV contact, ±8kV air discharge 3 A Dip 30% 500ms A/B Int >95% 10ms A Int >95% 5000ms B Notes & Conditions High line/Low line Safety Approvals Certification Standard Notes & Conditions CB IEC62368-1 UL UL62368-1, CSA C22.2 No 62368-1-14 EN EN62368-1 CE Meets all applicable directives 80 UKCA Meets all applicable legislation 60 Audio/Video, Information and Communication Technology Equipment Load (%) 100 HDS800 Application Notes POKPOK SignalSignal 20 0 -25 AC-DC Application Notes 40 0 10 OVP OVPSetting Setting OVP Trip Point POWER SUPPLY AUX OVP Trip Point 200% 3300R 196% 200% 196% Pok Power not 120% 114% Power OK 120% 7% GND 114% 100% 105% % of Nominal Output 7% Voltage CN2 Connector 100% 105% % of Nominal Output Voltage Open drain signal, low when PSU turns on sink current: 20 mA OpenMaximum drain signal, low when PSU turns on Maximum drain voltage: 40 V Maximum sink current: 20mA Maximum drain voltage: 40V 23 CN2 RX* TX* AUX GND 23 24 1 2 CN2 23 24 2 1 CN2 CN2 2 1 2 1 CN2 Remote Sense 23 24 23 24 Current Share 24 SCL SDA 23 24 AUX GND VCI GND ACI GND Load 6 2 1 C N2 EN+ AUX EN- GND PAR VSET 23 RX* 24 TX* 23 RX* 24 TX* 23 24 RX* TX* 23 24 RX* TX* POK Signal OVP Setting Power not OK OVP Trip Point HDS1500 Series POWER SUPPLY Power OK AUX GND CN2 Connector 120% 200% 3300R Power not OK Current Sharing with Remote Sense Power OK + GND CN2 Connector Remote Sense Remote Sense 2 2 1 2 1 2 1 23 24 23 24 23 24 23 % of Nominal Output Voltage + + 2 1 CN2 2 1 - 24 1 VO+ VS + VO- VS - GND POK VS ET PAR 2 1 24 23 2 1 24 23 + + 1 2 1 2 1 2 1 23 24 23 24 23 24 23 VS + VO+ AUX EN+ VO- VS - VO- VS - VO- VS - VO- VS - GND ACI GND POK GND POK GND POK GND POK GND CN2 VCI 1 VS ET PAR VS ET PAR VS ET PAR VS ET PAR G ND ACI GND AUX S DA S CL GND TX* GND EN- GND EN- EN+ VO+ VS +AUX EN+ VO+ VS + AUX EN+ GND ACI VO- VS - GND ACI VO- VS - GND ACI VO- VS - VCI GND VCI GND VCI P OK ACI GND G ND GND VCI AUX GND AUX GND AUX PAR GND GND VS E T GND AUX S DA S CL S DA S CL E N- AUVO+ X E N+VS + GND AUX G NVODVO+AC IVS VS-+ TX* RX* G NGND DVO- VCPOK I VS 24 GN DGET NDAUX P OK PAR VS GND EN- AUX EN+ + 2 E N- GND AUX G NDVO VO+ +AC I VSVS TX* R X* G NDVGND SO- VC I VPOK 24 G NDGVS AUXP O ND K ET PAR + GND TX* G ND S CL S DA RX* 1 VO+ VS + VO- VS - S DAVS E TS C LPAR PAR GND EN- AUX CN2 EN+ VO+ GND ACI VO- 1 VCI GND + VO+ GND VS AUX GND POK VS ET PAR GND EN- EN+ GND ACI GND VCI GND AUX S DA S CL GND AUX 23 R X* AUX RX* 23 1 24 23 RX* 23 2 VO+ VS + VO- VS - + 1 24 23 GND POK VS ET PAR GND EN- 1 24 23 + 2 1 24 23 VS + VO- VS - GND POK VS ET PAR GND EN- GND AUX TX* R X* 23 24 GET NDG ND AUXP OK VS PAR S DAVS E T S C LPAR GND ENG ND AUX TX* RX* S CL GND AUX TX* R X* E N- E N- VO+ AU X E NVS + + AUXVO+E N+ VS + GN DVO+ACVS I V-S + VO- G NDV VOS +O+AC I VVS GGND NDVO- VC I VS POK 23 24 GVS NDG XP OK ET NDAUPAR S GND DAVS E TS CENLPAR G NDGND VS VO- VC I POK 24 G ND VS G NET DAUXPPAR OK S DAV S C L S E T PENAR GND G NDG NDAUXE N- AUX G NDEN+ E N- AUX EN+ S DA S CL G ND AUX TX* RX* 23 GND TX* AUX GND RX* AUX TX* R X* G ND TX* www.xppower.com 24 24 23 S CL GND 24 24 P OK PAR G ND E N- S DA S CL VS + VO+ E N+ GND AUX G NDVO+VOAC I VS + VS TX* R X* G NDVOGND - VC I VS -POK 24 G NDG NVS XP OKPAR ET DAU S CL G ND AUX TX* RX* GND AUX RX* 23 23 TX* 24 AUX load. TX*AUX RX*E N+ ACI GND 23 G ND GNDAC I VCI G ND VC I G ND AUX S DA S CL G ND AUX TX* 24 RX* GND S DA TX* 23 23 Notes In parallel operation, it is possible that only one unit will operate if the load is less than 5% of the combined rated output It is possible to have more than five units in parallel, contact sales for details. *Pin 23 and 24, Only usable with driver board “KIT-RS232-X” or “KIT-RS485-1” 24 GND R X* 24 EN+ AUX ACI 23 A CI S DA 23 G NDG NDAUXE N- EN+ TX* AUXRX* E N+ 23 AC I S DA G ND VS E T S DAVS EGND TS C LPAR EN- 24 24 24 In parallel operation, it is possible that only one unit will operate if the load is less than 5% of the combined rated output G ND G ND load. VCI VCI GNDG NDVCI GND GND TX* RX* G ND VC I G ND VC I It is possible to have more than five units in parallel, contact sales for details. GNDGNDAUX VCI GND GND AUX AUX 24 23 G ND AUX G ND AUX G ND AUX *Pin 23 and 24, Only usable with driver board “KIT-RS232-X” or “KIT-RS485-1” S DA S CL S DA S CL S DA S CL 23 A CI PAR AUX 23 G NDG NDAUXE N- AUX TX*AUXRX* E N+ ACI GND GNDAUXACI E N+ G ND VS ET AUX S CL AUX S DA POK GND AUX GND VS - GND ACI S DA G ND AUX VS + VO- VCI GND E N- 23 GND VCI GND 1 EN- P OK G ND 2 24 EN+ GND S DA S CL VS VO+ AUX E N++ GND AUX G NDVO+VS AC-I VS + VOTX* RX* G NDVOPOK GND - VC I VS - 23 VSGND - G ND PAR 1 VO- VS E T VCI PAR + ACI VS GND GND 2 24 VO+ EN+ VO- VS E T 23 GND VS -ACI VOGND PAR R X* 23 23 VS + AUX VS + AUX P OK 24 VO+ VO+ G ND RX* 24 AUX + VO+ VS + EN+ VO+ AUX VS E T 1 AUX TX* + 2 VS +EN+ VOAUX + VS - ACI VO- GND G ND P OK GND + 2 TX* + 24 S CL S CL + 2 23 1 AUX S DA 24 + AUX GND TX* 23 VCI VC I G ND 1 2 AC I GND G ND 23 ACI 23 G ND 2 VS + VCI EN+ TX*AUX RX*E N+ GND 24 VS - GND AUX 24 S DA AUX 23 EN- G ND TX* TX* RX* 24 24 TX* GND S CL GND 24 23 23 PAR S DAVS E TS C LPAR 23 23 VS ET TX* PARRX* S CL 24 G NDG NDAUVS XP O K ET AUX + 1 S DA S CL VS + GND AUX G NDVO+AC VOI VS + VS TX* R X* G NDVO- VCGND I VS POK 1 + 2 AUX S DA E N+ VO+ 2 2 VOS DA VSS- CL GND AUX GND POK EN- 23 Current Share with Local Sensing + GND E N- AUX 24 4. Current Sharing with Local Sensing 23 VCI G ND R X* + POK AUX RX* 2 Current Sharing with Local Sense GND VC I GND S DA TX* 24 + 2 AC I G ND 23 G ND G NDG NDAUXE N- ACI 23 G ND G ND 24 4. Current Sharing with Local Sensing EN+ S CL AUX 24 23 AUX GND AUX G ND TX* EN- TX* AUXRX* E N+ AUX 1 GND G NDG NDAUXE N24 S CL + GND 2 23 VS ET GND 24 24 G NDG NVS XP OKPAR DAUET AUX S DA AUX 24 E N- S DA S CL E N+ VS + VO+ GND AUX G NDVO+VOAC I VS + VS TX* R X* G NDVO-GND VC I VS -POK EN+ GND AUX RX* TX* 24 G ND 23 23 AUX 23 PAR EN- AUX S CL S DA P OK AUX TX*AUXRX* E N+ ACI GND AUX G ND S DA G ND VS E T G NDG NDAUXE N24 23 - G ND GND 23 GND 2 Local Sense Local Sense PAR S DAVS E TS C LPAR TX*AUXRX* E N+ ACI GND 23 23 P OK G ND AC I ND AC I VCI VCI GND GND Current Sharing with GGLocal Sense G ND VC I ND VC I RX* 2 23 G NDG NDAUXE N24 G ND VS E T AUX VO+ E N+ VS + S DAVS E TS C LPAR AUX 24 EN- VAUX S+ PAR G ND 23 VCI GND VO+ EN- P OK VS E T VS + EN+ GND VS + VO+ AUX VS VO- CN2 5 23 VO+ + 5 1 VS + GND Mustbe beused usedififremote remote sense sense is Must is not notrequired. required. 2 24 + VO+ EN+ Notes 23 VS + AUX Load if remote sense is not required. Must be used + 1 + VO+ GND - 23 2 G ND + 1 24 EN- EN- 23 2 23 GND GND 24 2 1 24 2 Load + 2 24 + 2 24 + VS ET TX* PARRX* Local Sense Load 23 + GND AUX GND POK - + 1 24 23 3. Current Sharing with Remote Sensing VOS DA VSS- CL 23 + 2 1 Current Sharing with Remote Sense + VO+ GND VS AUX + + 1 24 2 23 Load + 2 114% Current Share with Remote Sensing 100% 105% + 2 + 120% 7% 3. Current Sharing with Remote Sensing Open drain signal, low when PSU turns on Maximum sink current: 20 mA Maximum drain voltage: 40 V Remote+ Sense 100% 105% 7% % of Nominal Output Voltage Open drain signal, low when PSU turns on Maximum sink current: 20 mA Application General Maximum drain voltage: 40 Notes V + AC-DC POWER SUPPLIES 114% 196% Pok 24 AUX REV. B0 13/06/26 5 S CL AUX R X* 23 23 REV. B0 13/06/26 5 www.xppower.com Notes: In parallel operation, it is possible that only one unit will operate if the load is less than 5% of the combined rated output load. It is possible to have more than five units in parallel, contact sales for details. *Pin 23 and 24, Only usable with driver board “KIT-RS232-X” or “KIT-RS485-1” Specifications subject to change 26 Jan 2022without notice. 7 HDS1500 Series AC-DC POWER SUPPLIES Mechanical Details Torque: 2.5 ±2Kgf.cm (2.5±0.2Nm) AIR FLOW 8-M4 (both sides) L=0.12 (3.0) max 12.36 (313.85) 11.02 (280.0) 1.38 (35.0) 9.33 (237.0) 0.55 (14.0) 5.0 (127.0) 2.5 (63.5) 1.34 (34.0) 0.59 (15.0) 9.84 (250.0) 3.86 (98.0) 0.57 (14.5) 4-M4 L=0.12 (3.0) max CN2 Control Pin Connections Pin Function Description Pin Function Description Pin Function Description 1 VS+ Remote Sense (+) 9 EN- Inhibit On/Off (-) 17 AUX +5V/0.5 A or +9V/0.3 A Standby power 2 VO+ Positive Output Voltage 10 GND Ground 18 GND Ground 3 VS- Remote Sense (-) 11 EN+ Inhibit On/Off (+) 19 SCL I2C Serial Clock 4 VO- Negative Output Voltage 12 AUX +5V/0.5 A or +9V/0.3 A Standby power 20 SDA I2C Serial Data 5 POK Power OK 13 ACI I Program 21 AUX +5V/0.5 A or +9V/0.3 A Auxiliary power 6 GND Ground 14 GND Ground 22 GND Ground 7 PAR Parallel Operation Current Share 15 VCI V Program 23 RX* Receive 8 VSET AUX Output Setting 16 GND Ground 24 TX* Transmit Notes: 1. All dimensions are in inches (mm). 2. Weight 5.7lb (2.6kg) 3. Maintain 2” (50mm) clear space at each end. 4. Mating connector CN2: Manufacturer: JST Housing: PHDR-24VS, Contacts: SPHD-002T-P0.5 contacts (28-24 AWG) 5. Torque of mounting M4 screw: 1.27Nm (13.0kgf.cm) *Only usable with driver board “KIT-RS232-X” or “KIT-RS485-1” 02 Nov 2022 8