90~264 VAC Continuous Universal Input
Skynet’s SNP-G Series is a 3″ x 5″ open frame power supply with an amazing power density of 9.4 watts per cubic inch plus active PFC. The 3” x 5” form factor has been an industry standard for more than 10 years. Initially the power density was around 2 watts per cubic inch then hovered around 3 watts per cubic inch for quite some time. Now the SNP-G series in 3″ x 5″ form factor is undoubtedly the current state-of-the-art. With built-in PFC
Features
• With built-in PFC
• Only 1.42 inch height
• 9.4 Watt per cubic inch
• With ITE & Medical safety
• Efficiency between 80% to 90%
• Operation from 0°C to 70°C by convection
• Only 1.42 inch height
• 9.4 Watt per cubic inch
• With ITE & Medical safety
• Efficiency between 80% to 90%
• Operation from 0°C to 70°C by convection
Size
3 x 5 x 1.42 inch
76.2 x 127 x 36 mm
76.2 x 127 x 36 mm
DC Outputs
Output, V | 48.0V |
Max Load, A | 3.35 A / 6.67 A pk. |
Regulation | +/-1% |
Ripple | 120 mV |
Specifications
Input | VAC |
Voltage, V | 90 to 264 VAC |
Frequency, Hz | 47 to 63 |
Current, A | inrush I <30A at 115VAC; <60A at 230VAC |
Power Factor | Active PFC |
Harmonics | EN61000-3-2, Class D |
Cooling | Free air convection for 160W 240W w forced air |
Power Good | Consult Factory |
Holdup Time | 20 mS typical at rated load and 115VAC |
Transient | Consult Factory |
Efficiency | 80%~90% depending on load |
Shorted output | Protected |
Over Load Protection | auto-recovery |
Short Circuit Protection | auto-recovery |
Over Voltage Protection | Latch-off |
EMS | EN61000-4-2, -3, -4, -5, -6, -8, -11 |
Temperature | 0 to 70 degrees C |
EMI | EN55022 B, EN61000-3-3 |
Safety Agency | UL/CSA/EN60950-1,2nd Edition ANSI/AMMI/CSA/EN60601-1, 3rd Edition CB Report, CE Mark, RM rpt |
Notes
1. The total output current is rated load with free air convection and maximum load. For 240w rating 18 CFM of forced airflow is provided over the unit.
2. Each output is checked at the factory to be within voltage accuracy with a 60% rated load condition.
3. Line regulation is defined by changing the input voltage ±10% from nominal line at rated load.
4. Load regulation is defined by changing the output load ± 40% from 60% of the rated load while another output is set to 60% of rated load.
5. Ripple & noise is measured at rated load and nominal line by using a 15MHz bandwidth limited oscilloscope with each output terminated by a 0.47 uF capacitor.
6. Hold up time is measured from the end of the last charging pulse to when the main output drops down to 95% output voltage.
7. Efficiency is measured at rated load.
2. Each output is checked at the factory to be within voltage accuracy with a 60% rated load condition.
3. Line regulation is defined by changing the input voltage ±10% from nominal line at rated load.
4. Load regulation is defined by changing the output load ± 40% from 60% of the rated load while another output is set to 60% of rated load.
5. Ripple & noise is measured at rated load and nominal line by using a 15MHz bandwidth limited oscilloscope with each output terminated by a 0.47 uF capacitor.
6. Hold up time is measured from the end of the last charging pulse to when the main output drops down to 95% output voltage.
7. Efficiency is measured at rated load.