Product Details
LRS-35W Series Ultra Thin Single Switching Power Supply
Features:
· Universal AC input / Full range
· Withstand 300VAC surge input for 5 second
· Miniature size and 1U low profile, low weight
· Protections: Short circuit / Overload / Over voltage
· Cooling by free air convection
· No load power consumption<0.5W
Model |
LRS-35-5 |
LRS-35-12 |
LRS-35-15 |
LRS-35-24 |
LRS-35-36 |
LRS-35-48 |
Output
|
DC voltage |
5V |
12V |
15V |
24V |
36V |
48V |
Rated current |
7A |
3A |
2.4A |
1.5A |
1A |
0.8A |
Current range |
0~7A |
0~3A |
0~2.4A |
0~1.5A |
0~1A |
0~0.8A |
Rated power |
35W |
36W |
36W |
36W |
36W |
38.4W |
Ripple & noise |
100mVp-p |
120mVp-p |
120mVp-p |
150mVp-p |
200mVp-p |
200mVp-p |
DC voltage ADJ. range |
±10% |
±10% |
±10% |
±10% |
±10% |
±10% |
Voltage tolerance Note.3 |
±3% |
±2% |
±1% |
±1% |
±1% |
±1% |
Line regulation Note.4 |
±0.5% |
±0.5% |
±0.5% |
±0.5% |
±0.5% |
±0.5% |
Load regulation Note.5 |
±2% |
±1% |
±0.5% |
±0.5% |
±0.5% |
±0.5% |
Setup, rise, hold up time |
800ms, 30ms, 30ms/ 230VAC (full load) |
Input
|
Voltage range |
90~264VAC, 127~373VDC |
Frequency range |
47~63HZ |
AC current |
0.7A/ 115VAC 0.42A/ 230VAC |
Inrush current |
Cold start 45A/ 230VAC |
Efficiency |
83% |
86% |
87% |
88% |
89% |
90% |
Leakage current |
<0.75mA/ 240VAC |
Protection
|
Overload |
Rated output power 110%~150% start over load protection |
Protection type: hiccup mode, auto-recovery after fault condition is removed |
Over voltage |
Rated output voltage 115%~135% Start over voltage protection |
Protection type: hiccup mode, auto-recovery after fault condition is removed |
Environment |
Working temp, humidity |
-30℃~+70℃ (Please refer to "derating curve")
20%~90% RH Non-condensing
|
Storage temp, humidity |
-40℃~+85℃, 10%~95% RH non-condensing |
Withstand vibration |
10~500HZ,2G 10min/1cycle,period for 60 minutes,each axes |
Safety |
Withstand voltage |
I/P-O/P: 1.5KVAC I/P-FG: 1.5KVAC O/P-FG: 0.5KVAC |
Isolation resistance |
I/P-O/P, I/P-FG, O/P-FG: 100M ohms/ 500VDC |
Fit standard |
Safety standards |
Compliance to UL60950-1,TUV EN60950-1, GB4943 |
EMC emission |
Compliance to EN55022 (CISPR22) Class A, GB9254 Class B, EN55014, EN61000-3-2,3 |
EMC immunity |
Compliance to EN61000-4-2, 3, 4, 5, 6, 8, 11, EN55024, EN61000-6-1 |
Others |
Dimension |
99*82*30mm (L*W*H) |
Weight / packing |
0.23kg/ 60pcs/ 14.8kg/ 0.025m³/ 0.88CUFT |
MTBF |
≥720K hrs min. MIL-HDBK-217F (25℃) |
Note |
1. All parameters NOT specially mentioned are measured at 230VAC input, rated load and 25℃ of ambient temperature.
2. Ripple & noise are measured at 20MHz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.
|
Switch Mode Power Supply (SMPS), also known as switching Power Supply and Switch converter, is a high-frequency Power conversion device, which is a kind of Power Supply. Its function is to convert the voltage of a location into the voltage or current required by the client through different forms of architecture. The input of switching power supply is mostly ac power supply (e.g. mains) or dc power supply, while the output is mostly devices requiring dc power supply, such as personal computers. The switching power supply converts voltage and current between the two.
Switch power supply is different from the linear power supply, switching power supply using the switching transistor is likely in the fully open mode (saturated zone) and full closed area (as), switching between these two modes have the characteristics of low dissipation, can have high dissipation switching conversion between, but time is very short, so compare save energy and produce less waste heat. Ideally, switching power itself does not consume electrical energy. Voltage regulation is achieved by adjusting the time when transistors turn on and off. In contrast, the transistor itself consumes power as it operates in a large area during the generation of output voltage from a linear power source. The high conversion efficiency of the switching power supply is one of the big advantages, and because of the high working frequency of the switching power supply, small size, light weight transformer can be used, so the switching power supply will be smaller than the linear power supply, the weight will be lighter.
Switching power is better than linear power when high efficiency, volume and weight are the key considerations. However, the switching power supply is complex, and internal transistors will switch frequently. If the switching current is not treated, noise and electromagnetic interference may affect other equipment. Moreover, if the switching power supply is not specially designed, its power factor may not be high.
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