PU1 | PU2 | PU3 | PU4 | PU6 | PU20 | |
Form Factor | 3U, 12HP | 3U, 8HP | 3U, 8HP | 3U, 8HP | 3U, 12HP | 3U, 6HP |
Connection | Input and output via DIN 41612 plug connector, type H15 | Input and output via DIN 41612 plug connector, type H15 | Input and output via DIN 41612 plug connector, type H15 | Input and output via DIN 41612 plug connector, type H15 | Input and output via DIN 41612 plug connector, type H15 | Input and output via DIN 41612 plug connector, type H15 |
Input Voltage |
110 V DC | 24 V DC | 36-48 V DC | 72-110 VDC | 24 VDC | 20÷130 VDC |
Input Range |
Max. input voltage range: 0.6 x nominal voltage < nominal voltage < 1.4 x nominal voltage with full functionality for 0.1 s, no damage for 1 s (according to EN50155) o 66..154 VDC | Max. input voltage range: 0.6 x nominal voltage < nominal voltage < 1.4 x nominal voltage with full functionality for 0.1 s, no damage for 1 s (according to EN50155) | Max. input voltage range: 0.6 x nominal voltage < nominal voltage < 1.4 x nominal voltage with full functionality for 0.1 s, no damage for 1 s (according to EN50155) o 21.6..67.2 VDC | Max. input voltage range: 0.6 x nominal voltage < nominal voltage < 1.4 x nominal voltage with full functionality for 0.1 s, no damage for 1 s (according to EN50155) o 43.2..154 VDC | Max. input voltage range: 0.6 x nominal voltage < nominal voltage < 1.4 x nominal voltage with full functionality for 0.1 s, no damage for 1 s (according to EN50155) o 14.4..33.6 VDC | Max. input power range of 14.6..156 VDC |
Output Voltage / Current |
5V @ 15A | 5V @ 7A 3.3V @ 10.6A |
5V @ 7A 3.3V @ 10.6A |
5V @ 7A 3.3V @ 10.6A |
12V @ 8.3A 5V @ 20A 3.3V @ 30.3A |
12V/10A max 5V/24A max 3,3V/9,1A (=30W) |
Output Wattage |
75W | 35W | 35W | 35W | 100W | 120W |
Accuracy | +-0.5% | – | – | – | – | – |
Hold-up Time | According to EN 50155 Class S2 for P out 75W | – | – | – | According to EN50155 Class S2 | – |
Remote ON/OFF |
Yes | – | – | – | – | Yes |
Power Failure Signal |
Isolated optocoupler output with NPN transistor | – | – | – | – | Available |
Protections | Overvoltage protection: 1.2V Overcurrent protection: 1.08A min., 1.15A max. Overtemp. shutdown: 101°C min., 105°C typ., 107°C max. |
Overvoltage protection: +0.5 V/-0.2 V Overtemp. shutdown: 50°…90° (adjustable by SMBus command) |
Overvoltage protection: +0.5 V/-0.2 V Overtemp. shutdown: 50°…90° (adjustable by SMBus command) |
Overvoltage protection: +0.5 V/-0.2 V Overtemp. shutdown: 50°…90° (adjustable by SMBus command) |
Overtemp. shutdown: 50°..90° (adjustable by SMBus command) | – |
Status LED | Green LED indicates correct input voltage Y ellow LED indicates operating mode |
Green LED indicates correct input voltage Yellow LED indicates correct output voltage |
Green LED indicates correct input voltage Yellow LED indicates correct output voltage |
Green LED indicates correct input voltage Yellow LED indicates correct output voltage |
Green LED indicates correct input voltage Yellow LED indicates correct output voltage |
Yes |
Operating Temperature |
-40˚C to 85˚C | -40˚C to 85˚C | -40˚C to 85˚C | -40˚C to 85˚C | -40˚C to 85˚C (no derating) | -40°C to 70°C |
Storage Temperature |
-40˚C to 105˚C | -40˚C to 85˚C | -40˚C to 85˚C | -40˚C to 85˚C | -40˚C to 85˚C | -50˚C to +85˚C |
Shock | according to IEC 68-2-27 | according to EN 60068-2-27 | according to EN 60068-2-27 | according to EN 60068-2-27 | according to EN 60068-2-27 | according to EN 50155: 2008 – 03 |
Vibration | according to IEC 68-2-6 | according to EN 60068-2-6 | according to EN 60068-2-6 | according to EN 60068-2-6 | according to EN 60068-2-6 | according to EN 50155 : 2008 – 03 |
Cooling Requirement | Integrated heat sinks | Integrated heat sinks | Integrated heat sinks | Integrated heat sinks | Integrated heat sinks | TBD |
Certifications | EN 50155, EN60950 Class I | EN 50155, EN60950 Class II | EN 50155, EN60950 Class II | EN 50155, EN60950 Class II | EN 50155, EN60950 Class II | EN 50155 |
Ordering Information | 0712-0033 | 0712-0002 | 0712-0003 | 0712-0004 | 17PU06-00 | 17PU20-03 |
Alimentatori Modulari EN50155 DC Power InputGOMA ELETTRONICA2018-12-03T09:50:39+01:00