SMT10E ARTESYN [Artesyn Technologies], SMT10E Datasheet

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... Implemented using state of the art surface mount technology and automated manufacturing techniques, the SIL10E offers compact size and efficiencies 96%. File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... (nom), then enabled. This is the time taken until the output voltage is within the total error band From 10% to 90%; full resistive load, no external capacitance File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... V il (max < 0.4 V Notes and Conditions MIL-HDBK-217F (nom out = I out (max) ; ambient 25ºC; ground benign environment Telcordia SR-332 Demonstrated. This entry will be periodically updated as the number of test hours increase File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... Standard Test level Criteria Notes and conditions EN61000-4-6 EN61000-4-3 EN61000-4-2 6kV contact NP As per ETS 300 386-1 table 5 8kV air SXA10 Series | 15W DC/DC E Class Non-Isolated Notes and Conditions Fixed frequency Measured from seating plane File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... SMT10E Series | 10 A DC-DC Converter Output Output Current Typical Voltage (Max.) Efficiency 1.2V 10A 89% 1.5V 10A 90% 1.8V 10A 92% 2.5V 10A 95% 3.3V 10A 96% 3.3V 10A 96% E Class Non-Isolated Max. Load Regulation 1.0% 1.0% 1.0% 1.0% 1.0% 1.0% File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... I out = I out (nom (min (max (nom); I out (min out (max) Continuous, unit auto recovers from short < 100mV 20MHz. See Application Note 168 for measurement set-up details File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... See Application Note 168 for details of trim equations and trim curves If trim up is invoked de-rate power accordingly (remote sense + trim ≤ 10%) Notes and Conditions I out = 100% I out (max (nom) I out = 50% I out (max (nom) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... I out = I out (nom (min (max (nom); I out (min out (max) Continuous, unit auto recovers from short < 100mV 20MHz. See Application Note 168 for measurement set-up details File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... See Application Note 168 for details of trim equations and trim curves If trim up is invoked de-rate power accordingly (remote sense + trim ≤ 10%) Notes and Conditions I out = 100% I out (max (nom) I out = 50% I out (max (nom) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... I out = I out (nom (min (max (nom); I out (min out (max) Continuous, unit auto recovers from short < 100mV 20MHz. See Application Note 168 for measurement set-up details File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... See Application Note 168 for details of trim equations and trim curves If trim up is invoked de-rate power accordingly (remote sense + trim ≤ 10%) Notes and Conditions I out = 100% I out (max (nom) I out = 50% I out (max (nom) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... I out = I out (nom (min (max (nom); I out (min out (max) Continuous, unit auto recovers from short < 100mV 20MHz. See Application Note 168 for measurement set-up details File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... See Application Note 168 for details of trim equations and trim curves If trim up is invoked de-rate power accordingly (remote sense + trim ≤ 10%) Notes and Conditions I out = 100% I out (max (nom) I out = 50% I out (max (nom) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... I out = I out (nom (min (max (nom); I out (min out (max) Continuous, unit auto recovers from short < 100mV See Application Note 168 for set-up details File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... See Application Note 168 for details of trim equations and trim curves If trim up is invoked de-rate power accordingly (remote sense + trim ≤ 10%) Notes and Conditions I out = 100% I out (max (nom) I out = 50% I out (max (nom) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... I out = I out (nom (min (max (nom); I out (min out (max) Continuous, unit auto recovers from short < 100mV See Application Note 168 for set-up details File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... See Application Note 168 for details of trim equations and trim curves If trim up is invoked de-rate power accordingly (remote sense + trim ≤ 10%) Notes and Conditions I out = 100% I out (max (nom) I out = 50% I out (max (nom) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... Step Load Change (Channel 1: Vo, Channel 4: Io) Figure 6: Typical Power-up Characteristic SMT10E Series | 10 A DC-DC Converter SXA10 Series | 15W DC/DC E Class Non-Isolated OUTPUT CURRENT (A) Figure 2: Efficiency vs Load (Channel 1: Vo, Channel 2: Vin) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 Vin = 3V0 Vin = 5V Vin = 5V5 ...

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... S1V2 Model Figure 7: Control On/Off Characteristic (Channel 1: Vo, Channel 2: Remote ON/OFF) www.artesyn.com 19 SMT10E Series | 10 A DC-DC Converter E Class Non-Isolated Figure 8: Typical Ripple and Noise (Channel 3: Vo) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... Step Load Change (Channel 1: Vo, Channel 4: Io) Figure 14: Typical Power-up Characteristic SMT10E Series | 10 A DC-DC Converter SXA10 Series | 15W DC/DC E Class Non-Isolated OUTPUT CURRENT (A) Figure 10: Efficiency vs Load (Channel 1: Vo, Channel 2: Vin) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 Vin = 3V0 Vin = 5V Vin = 5V5 ...

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... S1V5 Model Figure 15: Control On/Off Characteristic (Channel 1: Vo, Channel 2: Remote ON/OFF) www.artesyn.com 21 SMT10E Series | 10 A DC-DC Converter E Class Non-Isolated Figure 16: Typical Ripple and Noise (Channel 3: Vo) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... Step Load Change (Channel 1: Vo, Channel 4: Io) Figure 22: Typical Power-up Characteristic SMT10E Series | 10 A DC-DC Converter SXA10 Series | 15W DC/DC E Class Non-Isolated OUTPUT CURRENT (A) Figure 18: Efficiency vs Load (Channel 1: Vo, Channel 2: Vin) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 Vin = 3V0 Vin = 5V Vin = 5V5 ...

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... S1V8 Model Figure 23: Control On/Off Characteristic (Channel 1: Vo, Channel 2: Remote ON/OFF) www.artesyn.com 23 SMT10E Series | 10 A DC-DC Converter E Class Non-Isolated Figure 24: Typical Ripple and Noise (Channel 3: Vo) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... Figure 26: Efficiency vs Load Figure 28: Typical Transient Response 75% - 100% Step Load Change (Channel 1: Vo, Channel 4: Io) Figure 30: Typical Power-up Characteristic (Channel 1: Vo, Channel 2: Vin) SXA10 Series | 15W DC/DC E Class Non-Isolated Vin = 4V5 Vin = 5V Vin = 5V5 File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... S2V5 Model Figure 31: Control On/Off Characteristic (Channel 1: Vo, Channel 2: Remote ON/OFF) www.artesyn.com 25 SMT10E Series | 10 A DC-DC Converter E Class Non-Isolated Figure 32: Typical Ripple and Noise (Channel 3: Vo) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... Figure 36: Typical Transient Response 75% - 100% Step Load Change (Channel 1: Vo, Channel 4: Io) Figure 38: Typical Power-up Characteristic SMT10E Series | 10 A DC-DC Converter SXA10 Series | 15W DC/DC E Class Non-Isolated 2.5 5 7.5 10 OUTPUT CURRENT (A) Figure 34: Efficiency vs Load (Channel 1: Vo, Channel 2: Vin) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 Vin = 4.5V Vin = 5.0V Vin = 5.5V ...

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... S3V3 Model Figure 39: Control On/Off Characteristic (Channel 1: Vo, Channel 2: Remote ON/OFF) www.artesyn.com 27 SMT10E Series | 10 A DC-DC Converter E Class Non-Isolated Figure 40: Typical Ripple and Noise (Channel 3: Vo) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... Figure 44: Typical Transient Response 75% - 100% Step Load Change (Channel 1: Vo, Channel 4: Io) Figure 46: Typical Power-up Characteristic SMT10E Series | 10 A DC-DC Converter SXA10 Series | 15W DC/DC E Class Non-Isolated 2.5 5 7.5 10 OUTPUT CURRENT (A) Figure 42: Efficiency vs Load (Channel 1: Vo, Channel 2: Vin) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 Vin = 4.5V Vin = 5.0V Vin = 5.5V ...

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... WV3 Model Figure 47: Control On/Off Characteristic (Channel 1: Vo, Channel 2: Remote ON/OFF) www.artesyn.com 29 SMT10E Series | 10 A DC-DC Converter E Class Non-Isolated Figure 48: Typical Ripple and Noise (Channel 3: Vo) File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... Figure 49: Mechanical Drawing and Pinout Table SMT10E Series | 10 A DC-DC Converter SXA10 Series | 15W DC/DC E Class Non-Isolated BOTTOM VIEW 0.190 0.190 (4.83) (4.83) 0.190 0.297 (4.83) (7.54 0.048 (1.22) All dimensions in inches (mm) All tolerance ±0.010in (±0.25mm) unless otherwise stated File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...

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... See Figure 50: Thermal reference points. Note 2 The Remote ON/OFF pin is referenced to ground. Note 3 The SMT10E features a ‘Negative Logic’ Remote ON/OFF operation. If not using the Remote ON/OFF pin, leave the pin open (the converter will be on). The Remote ON/OFF pin is referenced to ground. ...

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... The information and specifications contained or described herein are subject to change in any manner at any time without notice. No rights under any patent accompany the sale of any such product(s) or information contained herein. www.artesyn.com 32 SMT10E Series | 10 A DC-DC Converter E Class Non-Isolated File Name: lf_smt10e_05.pdf Rev (02): 04 Jan 2006 ...