PIC24300000000012268

HV + 500W

  • Complies with ATX 12V v2.4 & EPS 12V v2.92
  • Up to 85% efficiency
  • Active PFC, power factor ≧ 0.9
  • Powerful +12V single rail design
  • Multiple PCIe 6+2 pin graphic card connectors
  • 120mm quiet fan
  • Complete protections: OCP, OVP, SCP, OPP, UVP
  • Meet ErP/EuP 2013 standard
  • 80plus_230VEU
  • ERP_2013
HV+ PSU

True Power, You Can Count On

With 0.9 Active Power Factor Correction, the HV+ series comes across with guarantee wattage of continuous power, delivers full power to your PC system.

Optimal Cooling

An advanced thermal control fan makes optimal cooling and reduces noise under maximum operation.

Reliable & Durable: Engineered in Detail

Hold-up time indicates the length of time a power supply is able to maintain a consistent output voltage at a regular output level, after it is shut down or in a power shortage. This length of time is able to prevent instabilities in the computer system, or prevent interferences in case of sudden short circuit, overload, power outages, voltage sink in the power system.

Hold-up Time Recommended Criteria

Powerful +12V Single Rail Design

HV+ series offers Graphic Cards full & stable power individually and to avoid any overloading conditions.

HV+ PSU

80 Plus® Certification

HV+ series meet 80 PLUS 230V EU Standard and rated for greater efficiency to 87%, so you'll enjoy lower energy bills.

efficiency table 500W
80Plus White 230EU

AC/DC

AC Input200-240V~  4A  50-60Hz
DC Output+3.3V+5V+12V-12V+5Vsb
Max Output Current20A20A38A0.3A3.0A
Max Combined Power120W456W18.6W
Total Power500W

Cables

 atx cable 24 pinEPS 4 4 pinpcie 6+2 pinhd statmolex
MB 24 PINCPU 4+4 PINPCIe 6+2 PINSATAMOLEX
Connectors11262

Specifications

Model HP500S
Rated Output Power 500W
Form Factor ATX
80 PLUS Certification 230V EU Standard
Input Voltage 200-240V
Input Current 4A
Input Frequency 50-60Hz
PFC Active ≧ 0.9
Efficiency ≥85% at typical load
Fan Type Sleeve Bearing Fan, 120mm
Dimensions(L x W x H) 140 × 150 × 86 mm
Protection OCP, OVP, SCP, OPP, UVP

FAQ