ABC200-1024G

ABC200 Series is a family of compact and efficient AC-DC power supplies suited for telecom datacom and many other industrial applications. This family meets the international information technology safety standards with the CE-Mark for the European Low Voltage Directive (LVD). Their high efficiency allows a very minimal power loss in end equipment, resulting in higher reliability, ease of thermal management and regulatory approvals for an environmentally friendly end product. • High Efficiency up to 91% at 230 VAC • Universal AC Input Voltage Range: 90-264 VAC • • Active Power Factor Correction Over temperature, output overvoltage, overcurrent and short circuit protection • EMC Standard according to EN 55032 • • Safety approved to the latest edition of the following standards: CSA/UL 60950-1, EN/IEC 62368-1 High Power Density Design: 15 W/in3 • Compact Size: 2.0 (W) x 4.0 (L) x 1.5 (H) inches • RoHS Compliant • CE Marked • Industrial Applications • Telecom • Datacom ABC200 Series 2 MODEL INPUT VOLTAGE OUTPUT VOLTAGE NOM OUTPUT CURRENT # OF OUTPUTS OUTPUT POWER ABC200-1012G 90 – 264 VAC ABC200-1024G 90 – 264 VAC 12 VDC 15 A 1 200 W 24 VDC 8.5 A 1 200 W ABC200-1048G 90 – 264 VAC 48 VDC 4.2 A 1 200 W The ABC200-10XXG is a high efficiency and high power With 1 m/s system air cooling, the ABC200-1012G can density AC to DC power supply. It incorporates boundary deliver up to 180 W continuous output power, and 204W for conduction mode (BCM) PFC converter and soft-switching ABC200-1024G and the ABC200-1048G. LLC converter, providing increased system reliability and high efficiency. Figure 1. ABC200-10XXG block diagram Stresses in excess of the absolute maximum ratings may cause performance degradation, adversely affect long-term reliability, and cause permanent damage to the supply. PARAMETER Vi maxc Max Continuous Input CONDITIONS / DESCRIPTION Continuous Transient, 60 ms MIN NOM MAX 264 300 UNIT VAC VAC tech.support@psbel.com ABC200 Series 3 General Condition: T A = -10… 50 °C unless otherwise noted. Active fan air cooling required: 200 LFM (1 m/s) PARAMETER CONDITIONS / DESCRIPTION MIN Vi nom Nominal Input Voltage Vi Input Voltage Ranges Normal operating (Vi min to Vi max) Max Input Current At 90 VAC input and max rating Vi nom = 115 VAC, T = 25°C (see Figure 2) Vi nom = 230 VAC, T = 25°C (see Figure 3) Ii max NOM MAX UNIT 240 VAC 264 VAC 100 Ii p Inrush Current Limitation Fi Input Frequency 90 2.75 47 Arms 50/60 40 80 63 Hz Ap PF Power Factor Normal input, half load and above 0.9 Vi on Turn-On Input Voltage1 Ramping up 85 87 90 VAC Vi off 1 Ramping down 80 83 85 VAC η T hold Turn-Off Input Voltage Efficiency Hold-Up Time Vi nom = 230 VAC, 0.5∙Io nom, Vo nom, T A = 25 °C 89 Vi nom = 230 VAC, 1.0∙Io nom, Vo nom, T A = 25 °C After last AC zero point, Vo within regulation, Vi = 115 VAC, Po nom 91 % 10 ms 1) The power supply is provided with the hysteresis loop (about 4.5V) during turn-on and turn-off within the ranges. A slow-blow 5A input fuse (5 × 20 mm) in series with live line inside the power supply protects against severe defects. The fuse and a VDR form together with the input filter an effective protection against high input transients . The AC-DC power supply exhibits an X-capacitance of only about 1.0 μF, resulting in a low and short peak current, when the supply is connected to the mains. The internal bulk capacitor will be charged through a NTC resistor which will limit the inrus h current (see Figure 2 and 3). Figure 2. Inrush current, Vin = 115Vac, 90° CH1: Vin (100V/div), CH2: Iin (10A/div) 1 The power supply is provided with the hysteresis loop (about 4.5V) during turn-on and turn-off within the ranges. Europe, Middle East +353 61 225 977 North America +1 408 785 5200 © 2020 Bel Power Solutions & Protection BCD.G0201_AD Asia-Pacific +86 755 298 85888 ABC200 Series 4 Figure 3. Inrush current, Vin = 230Vac, 90° CH1: Vin (200V/div), CH2: Iin (20A/div) If the sinusoidal input voltage stays below the input under voltage lockout threshold Vi on, the supply will be inhibited. Once the input voltage returns within the normal operating range, the supply will return to normal operation again. Power factor correction (PFC) is achieved by controlling the input current waveform synchronously with the input voltage. A specified PFC controller is implemented in the boundary conduction mode topology giving outstanding PFC results over a wide input voltage and load ranges. The input current will follow the shape of the input voltage. The high efficiency (see Figure 4) is achieved by using softs witching LLC technology with boundary conduction mode PFC topology minimizing switching losses. Synchronous rectifiers on the output reduce the losses in the high current A Schottky or ultra fast diode is used as the rectifier in the output path for ABC200-1012G. ABC200-1024G and ABC200-1048G because of the high output voltage level. Figure 4. Efficiency Curves tech.support@psbel.com ABC200 Series 5 General Condition: T A = -10 to +50°C unless otherwise noted. Derate linearly from 50°C to 50% at 70°C. Active fan air cooling required: 200 LFM (1 m/s). PARAMETER CONDITIONS / DESCRIPTION MIN NOM MAX UNIT Main Output VO VO VO set PO IO Nominal Output Voltage Output Setpoint Accuracy 0.5 ∙IO, T amb = 25 °C, 0.5 ∙IO, T amb = 25 °C Nominal Output Power Nominal Output Current VO ripple Output Ripple & Noise VO nom, IO nom, 20 MHz BW ABC200-1012G 12.0 ABC200-1024G 24.0 ABC200-1048G 48.0 ABC200-1012G 11.95 12.05 ABC200-1024G 23.90 24.10 ABC200-1048G 47.80 Load Regulation dVi Line Line Regulation dVdyn T rec t Delay t rise Dynamic Load Regulation Vi = Vi nom, 0 - 100 % IO nom, Vi =Vi min…Vi max, ΔIO = 50% IO nom, IO = 50 … 100% IO max, dIO/dt = 1 A/μs, recovery within 5% of VO nom Recovery Time Turn On Delay Time Rise Time VDC 48.20 ABC200-1012G 180 W ABC200-1024G 204 W ABC200-1048G 204 ABC200-1012G 13 ABC200-1024G ABC200-1048G W 15 ADC 7.5 8.5 ADC 3.5 4.25 ADC ABC200-1012G 120 mV ABC200-1024G 240 mV ABC200-1048G d VO VDC 480 mV ABC200-1012G 60 120 mV ABC200-1024G 120 240 mV ABC200-1048G 240 480 mV ABC200-1012G 12 120 mV ABC200-1024G 24 240 mV ABC200-1048G 96 480 mV ABC200-1012G 0.6 VDC ABC200-1024G 1.2 VDC ABC200-1048G 2.4 VDC ABC200-10XXG 2 ms 2.5 sec 20 ms ABC200-1012G 3300 μF ABC200-1024G 1800 μF ABC200-1048G 1000 μF See Figure 5 and Figure 6 0 1.5 VO = 10…90% VO nom (see Figure 10) Note: For ABC200-1048G, maximum rise time is 30 ms CLoad Capacitive Loading T amb = 25 °C Europe, Middle East +353 61 225 977 North America +1 408 785 5200 © 2020 Bel Power Solutions & Protection BCD.G0201_AD Asia-Pacific +86 755 298 85888 ABC200 Series 6 Figure 5. Turn-On AC Line 115 VAC, full load (500 ms/div) CH1: VO (3 V/div) CH2: Vin (230 V/div) Figure 7. Turn-Off AC Line 115 VAC, full load (10 ms/div) CH1: VO (3 V/div) CH2: Vin (230 V/div) Figure 9. AC drop out 30ms (50 ms/div), VO restart CH1: VO (3 V/div) CH2: Vin (250 V/div) Figure 6. Turn-On AC Line 230 VAC, full load (500 ms/div) CH1: VO (3 V/div) CH2: Vin (350 V/div) Figure 8. AC drop out 10ms (50 ms/div) CH1: VO (3 V/div) CH2: Vin (250 V/div) Figure 10. VO rise time at 115VACCH1: VO (2 V/div) tech.support@psbel.com ABC200 Series 7 Figure 11. Load transient VO, 7.5A to 15A (200 us/div), CH1: IO (5 A/div) CH2: VO (200 mV/div) PARAMETER Figure 12. Load transient VO, 15A to 7 A (200 us/div) CH1: IO (5 A/div) CH2: VO (200 mV/div) MAX UNIT TA Ambient temperature Vi min to Vi max, Io nom, ISB nom -10 +50 °C T Aext Extended temp range Derated output +50 +70 °C TS Storage temperature Non-operational -40 +85 °C MAX UNIT PARAMETER F Vo ov Io lim T SD Input Fuses Rating CONDITIONS / DESCRIPTION CONDITIONS / DESCRIPTION Over Temperature on Heat Sinks MIN Not user accessible, time lag characteristic OV Trigger Point Current Limit MIN Vi > 90 VAC, -10 °C