EXQ125 48V SERIES. Single Output. Special Features

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EXQ125 48V SERIES Embedded Power for Business-Critical Continuity EXQ125 48V SERIES 1 of 36 Total Power: 1 W Input Voltage: 33-75 VDC # of Outputs: Single Special Features High efficiency topology, 91% typical at 3.3 V, 92% typical at 5 V High output current, high useable power Industry standard footprint Wide operating temperature, - 4 C to +1 C (baseplate temperature) 9% to 11% output trim No minimum load Overvoltage protection Remote ON/OFF Approvals to EN695 (TÜV Rheinland) and UL/cUL195 Complies with ETS 3 19-1- 3/2-3 Complies with ETS 3 132-2 (input voltage and current requirements) Complies with ETS 3 386-1 Available RoHS compliant 2 year warranty NOTICE SOME MODELS LISTED IN THIS DOCUMENT HAVE BEEN DISCONTINUED Please contact your local Artesyn representative or use the on line model number search tool at http://www.artesyn.com/powergroup/products.htm to find a suitable alternative. The EXQ125 is a new high efficiency, open frame, isolated 1 Watt converter series in an industry standard quarter-brick footprint. The EXQ125 delivers very high output current at low voltages, and excellent useable output power for today's high-end applications. The design takes advantage of open-frame construction to provide a low mass, low thermal impedance baseplate design. The simplicity of the baseplate design enables customers to easily manage cooling of the product, eliminating the guesswork associated with competing products. The seven models in the series feature an input voltage range of 33 Vdc to 75 Vdc and are available in output voltages of 12 V, 5 V, 3.3 V, 2.5 V, 1.8 V, 1.5 V and 1.2 V. The output voltage on each model is adjustable from 9% to 11% of the nominal value. Typical efficiencies for the models are 91% for the 3.3 V, 9% for the 2.5 V, and 88% for the 1.8 V version. The EXQ125 series also has a remote ON/OFF capability. Overcurrent and overvoltage protection features are included as standard. With full international safety approval including EN695 (TÜV Rheinland) and cul195, the EXQ125 reduces compliance costs and time to market.

2 of 36 Stresses in excess of the maximum ratings can cause permanent damage to the device. Operation of the device is not implied at these or any other conditions in excess of those given in the specification. Exposure to absolute maximum ratings can adversely affect device reliability. Absolute Maximum Ratings Input voltage - continuous V in (cont) -.3 75 Vdc V in(+) - V in(-) Input voltage - peak/surge V in (peak) -.3 1 Vdc Peaks of any duration, converter OFF above 8 V, nonlatching, unit ON once V in <75 V Input voltage - remote pin V rem (peak) -.3 75 Vdc Peaks of any duration Operating temperature T op -4 1 C Measured at baseplate Storage temperature T storage -4 125 C Output power (12 V) Pout (max) 1 W Output power (5 V) P out (max) 1 W Output power (3.3 V) Pout (max) 82.5 W Output power (2.5 V) P out (max) 75 W Output power (1.8 V) Pout (max) 54 W Output power (1.5 V) P out (max) 45 W Output power (1.2 V) Pout (max) 36 W All specifications are typical at nominal input Vin = 48 V, full rated load at 25 C unless otherwise specified. Input Characteristics Input voltage - operating V in (oper) 33 48 75 Vdc Input current - no load (1.2 V) l in 35 6 madc V in (min) - V in (max), enabled Input current - no load (1.5 V) l in 45 65 madc V in (min) - V in (max), enabled Input current - no load (1.8 V) l in 6 7 madc V in (min) - V in (max), enabled Input current - no load (2.5 V) l in 6 75 madc V in (min) - V in (max), enabled Input current - no load (3.3 V) l in 65 8 madc V in (min) - V in (max), enabled Input current - no load (5 V) l in 7 88 madc V in (min) - V in (max), enabled Input current - no load (12 V) l in 65 85 madc V in (min) - V in (max), enabled Input current - Quiescent l in (off) 13 2 m Adc Converter disabled Input voltage variation dv/dt 5 V/ms Complies with ETS3 132 Part 4.4 Inrush current (i 2 t) linrush.22 A 2 s Complies with ETS3 132 Part 4.7, with recommended LISN and recommended external bypass capacitor Inrush current ratio I t /I m 11.7 Complies with ETS3 132 Part 4.7, with recommended LISN and recommended external bypass capacitor Input ripple rejection 5 db Frequency <1 khz Input fuse 5 A Slow Blow/Antisurge HRC recommended 2 V Rating. See Application Note 118

3 of 36 Turn On/Off Input voltage - turn on V in (on) 3 32.5 34 Vdc Input voltage - turn off V in (off) 29 3.5 33 Vdc Hysteresis 2.5 Vdc Turn on delay - enabled, T delay 6 1 ms With the Remote ON/OFF signal then power applied (power) asserted, time from when V in > V in (oper) until Vout is within total regulation band Turn on delay - power T delay 2 5 ms With V in = V in (nom), then applied, then enabled (enable) Remote ON/OFF asserted, time until Vo is within total error band Rise time T rise 1 2 ms From 1% to 9%, full resistive load, no external capacitance

4 of 36 Signal Electrical Interface Characteristic - Signal Name Symbol Min Typ Max Units Notes and Conditions At Remote ON/OFF pin See Notes 1 and 2 Open collector or equivalent compatible Control pin open circuit voltage V ih 4.5 5. V I ih = μa; open circuit voltage High level input voltage V ih 4. V Converter guaranteed ON when control pin is greater than V ih (min) High level input current I ih 1 μa Current flowing into control pin when pin is pulled high (max. at V ih = 75 V) Acceptable high level I ih (leakage) -1 μa Acceptable leakage current from leakage current signal pin into the open collector driver (neg = from converter) Low level input voltage V ii -.3 1.2 V Converter guaranteed off when control pin is less than V il (max) Low level input current I ii -.2 -.4 ma V il =.4 V Low level input current I il (max) -.2 -.4 ma V ii =. V, maximum source current from converter with short circuit Common Protection/Control Overtemperature shutdown Tots 11 115 12 C Baseplate temperature, threshold non-latching shutdown protection Overtemperature shutdown 5 C - restart hysteresis Remote sense compensation 1 % % of Vo (nom), compensation includes trim. See Application Note 118 Reliability and Service Life Mean time between failure MTBF 2,284,281 Hours Telcordia SR-332 V in = V in (nom) ; I out = I out (max); ambient 25 C; ground benign environment HALT testing Asynchronous dynamic testing Completed Completed Isolation Input to output test voltage 15 Vdc Test duration 1 s Input to output capacitance 2 pf Input to output resistance 1 MΩ Measured with 5 Vdc Input to output insulation system Operational

5 of 36 Other Specifications Switching frequency f sw 34 4 46 khz Fixed frequency (all models) Weight 45 48 g Statistical weight data available Environmental Requirements Thermal performance -4 1 C Baseplate temperature Altitude 3 m Derate total max. output current by 2% 9843 ft Derate total max. output current by 2% 1 m Derate total max. output current by 5% 3288 ft Derate total max. output current by 5% Type Parameter Reference Test Level Notes and Conditions Air temperature Low IEC 68-2-1-4 C All characteristics and parameters High IEC 68-2-2 +7 C extracted from ETS 3 19 Change IEC 68-2-14-4 C to +7 C classes 3.1, 3.2, 3.3, 3.4 and 3.5 T max. = +65 C for T3.4 Relative humidity Low 1% High IEC 68-2-56 1% Condensation IEC 68-2-3 9% to 1% Vibration IEC class 3M5 Freq. velocity IEC 68-2-6 5-9 Hz 5 mm/s Freq. acceleration IEC 68-2-6 9-2 Hz 1 g Shocks IEC class 3M5 Acceleration IEC 68-2-29 1 g Referenced ETSI standards: ETS 3 19: Environmental conditions and environmental tests for telecommunications equipment ETS 3 19: Part 1-3 (1997) Classification of environmental conditions stationary use at weather protected locations ETS 3 19: Part 2-3 (1997) Specification of environmental tests stationary use at weather protected locations EMC Electromagnetic Compatibility Phenomenon Port Standard Test level Criteria Notes and conditions Immunity: ESD Enclosure EN61-4-2 6 kv contact NP As per ETS 3 386-1 table 5 8 kv air RP EFT DC power EN61-4-4 2 kv NP As per ETS 3 386-1 table 5 4 kv LFS Signal EN61-4-4 1 kv NP See Application Note 118 2 kv LFS See Application Note 118 Radiated field Enclosure EN61-4-3 1 V/m NP As per ETS 3 386-1 table 5 Conducted Dc power EN61-4-6 1 V NP As per ETS 3 386-1 table 5 Signal EN61-4-6 1 V NP See Application Note 118 Input transients DC power ETS 3 132 ETR 283

6 of 36 EMC Electromagnetic Compatibility Phenomenon Port Standard Test level Criteria Notes and conditions Emission: Conducted DC power EN5522 Level A With recommended external filter for compliance bandwidth 2 khz to 3 MHz, as per ETS 3 386-1 EN5522 Level B With recommended external filter for compliance bandwidth 2 khz to 3 MHz, as per ETS 3 386-1 Signal EN5522 TBD Bandwidth 15 khz to 3MHz, as per ETS 3 386-1 Radiated EN5522 TBD Bandwidth 3 MHz to 1 GHz, as per ETS 3 386-1 Performance criteria: NP: Normal Performance: EUT shall withstand applied test and operate within relevant limits as specified without damage RP: Reduced Performance: EUT shall withstand applied test. Reduced performance is permitted within specified limits, resumption to normal performance shall occur at the cessation of the test LFS: Loss of Function (self recovery): EUT shall withstand applied test without damage, temporary loss of function permitted during test. Unit will self recover to normal performance after test Referenced ETSI standards: ETS 3 386-1 table 5 (1997): Public telecommunication network equipment, EMC requirements ETS 3 132-2 (1996): Power supply interface at the input to telecommunication equipment: Part 2 operated by direct current (dc) ETR 283 (1997): Transient voltages at interface A on telecommunication direct current (dc) power distributions Standards Compliance List Characteristic EN695 UL/cUL 195 TÜV Rheinland 3rd edition Safety Agency Approvals Standard UL/cUL 195 File Number TÜV Rheinland Certificate No. Category E135734 R725216 Material Ratings Characteristic - Signal Name Flammability rating Material type Notes and Conditions UL94V- FR4 PCB, T - LAM IMS - Baseplate Model Numbers Model Input Output Overvoltage Output Current Typical Number Voltage Voltage Protection (Max.) Efficiency EXQ125-48S1V2J 33-75 Vdc 1.2 V 1.45 V 3 A 86.5% EXQ125-48S1V5J 33-75 Vdc 1.5 V 1.8 V 3 A 87.5% EXQ125-48S1V8J 33-75 Vdc 1.8 V 2.25 V 3 A 88% EXQ125-48S2V5J 33-75 Vdc 2.5 V 3 V 3 A 9% EXQ125-48S3V3J 33-75 Vdc 3.3 V 3.9 V 25 A 91% EXQ125-48S5J 33-75 Vdc 5 V 5.9 V 2 A 92% EXQ125-48S12J 33-75 Vdc 12 V 14.4 V 8.3 A 93%

7 of 36 EXQ125-48S1V2J Model Input Characteristics Input current - operating I in.87.89 Adc V in = V in (nom) ; I out = I out (max) ; V o = V o (nom) Input current - maximum I in (max.) 1.28 1.3 Adc V in = V in (min) ; I out = I out (max) ; V o = V o (nom), measured at converter Input Capacitor ripple current I in (ripple) 5 ma rms I out = I out (max), measured 13 ma pk-pk without standard filter. See Application Note 118 Reflected ripple current I in (refl) 2 ma rms I out = I out (max), measured 5.5 ma pk-pk with standard filter. See Application Note 118 Input capacitance - C input 2.4 3 5.4 μf Internal to converter Internal Input capacitance - C bypass 33 μf Recommended customer External bypass added capacitance <.7 Ohm ESR EXQ125-48S1V2J Model Electrical Characteristics - O/P Nominal set-point voltage Vo (nom) 1.182 1.2 1.218 Vdc V in = V in (nom) ; I out = I out (nom) Total regulation band V o 1.164 1.236 Vdc For all line, static load and temperature until end of life. Line regulation.1.1 % I out = I out (nom), V in (min) to V in (max) Load regulation.2.2 % V in = V in (nom), I out (min) to I out (max) Temperature regulation.2.2 ±%/ C V in = V in (nom), I out =I out (max) Output current continuous Iout 3 Adc Output current - short circuit I sc 32 35 38 A rms Continuous, unit auto recovers from short, V o < 1 mv Load transient response - V dynamic/ 6 % Peak deviation for 5% to 75% peak deviation Vo (nom) step load, di/dt = 1 ma/μs, % of Vo (nom) Load transient response - T recovery 1 15 μs Settling time to within 1% of recovery output set point voltage for 5% to 75% load step External load capacitance C ext 1, μf Higher load capacitance values may be possible. Contact Artesyn Technologies for details Output voltage - noise V p-p 45 6 mv pk-pk Measurement bandwidth 2 MHz V rms 15 2 mv rms See Application Note 118 for test set-up

8 of 36 EXQ125-48S1V2J Model Protection and Control Features Overvoltage clamp voltage V ov 1.35 1.55 Vdc Non-latching. See Application Note 118 for details Overcurrent limit inception I oc 32 35 38 Adc V o = 9% of V o (nom) Output voltage trim range 11 % Trim up (% of V o nom ) 9 % Trim down (% of V o nom ) See Application Note 118 for details of trim equations and trim curves Open sense voltage 1.15 1.2 1.3 Vdc EXQ125-48S1V2J Model Efficiency Efficiency h 85 86.5 % I out = 1% l out (max), V in = V in (nom) Efficiency h 85.5 86.5 % I out = 5% I out (max), V in = V in (nom)

9 of 36 EXQ125-48S1V5J Model Input Characteristics Input current - operating I in 1.28 1.31 Adc V in = V in (nom) ; I out = I out (max) ; V o = V o (nom) Input current - maximum I in (max.) 1.7 1.9 Adc V in = V in (min) ; I out = I out (max) ; V o = V o (nom), measured at converter Input Capacitor ripple current I in (ripple) 7 ma rms I out = I out (max), measured 2 ma pk-pk without standard filter. See Application Note 118 Reflected ripple current I in (refl) 2 ma rms I out = I out (max), measured 5.5 ma pk-pk with standard filter. See Application Note 118 Input capacitance - C input 2.4 3 5.4 μf Internal to converter Internal Input capacitance - C bypass 33 μf Recommended customer External bypass added capacitance EXQ125-48S1V5J Model Electrical Characteristics - O/P Nominal set-point voltage Vo (nom) 1.477 1.5 1.523 Vdc V in = V in (nom) ; I out = I out (nom) Total regulation band V o 1.455 1.545 Vdc For all line, static load and temperature until end of life Line regulation.1.1 % I out = I out (nom), V in (min) to V in (max) Load regulation.2.2 % V in = V in (nom), I out (min) to I out (max) Temperature regulation.2.2 ±%/ C V in = V in (nom), I out =I out (max) Output current continuous Iout 3 Adc Output current - short circuit I sc 32 35 38 A rms Continuous, unit auto recovers from short, V o < 1 mv Load transient response - V dynamic/ 5 % Peak deviation for 5% to 75% peak deviation Vo (nom) step load, di/dt = 1 ma/μs, % of Vo (nom) Load transient response - T recovery 1 15 μs Settling time to within 1% of recovery output set point voltage for 5% to 75% load step External load capacitance C ext 1, μf Higher load capacitance values may be possible. Contact Artesyn Technologies for details Output voltage - noise V p-p 45 6 mv pk-pk Measurement bandwidth 2 MHz V rms 15 2 mv rms See Application Note 118 for test set-up

1 of 36 EXQ125-48S1V5J Model Protection and Control Features Overvoltage clamp voltage V ov 1.7 1.95 Vdc Non-latching. See Application Note 118 for details Overcurrent limit inception I oc 32 35 38 Adc V o = 9% of V o (nom) Output voltage trim range 11 % Trim up (% of V o nom ) 9 % Trim down (% of V o nom ) See Application Note 118 for details of trim equations and trim curves Open sense voltage 1.45 1.5 1.55 Vdc EXQ125-48S1V5J Model Efficiency Efficiency h 86 87.5 % I out = 1% l out (max), V in = V in (nom) Efficiency h 86 87.5 % I out = 5% I out (max), V in = V in (nom)

11 of 36 EXQ125-48S1V8J Model Input Characteristics Input current - operating I in 1.28 1.31 Adc V in = V in (nom) ; I out = I out (max) ; V o = V o (nom) Input current - maximum I in (max.) 1.89 1.92 Adc V in = V in (min) ; I out = I out (max) ; V o = V o (nom), measured at converter Input Capacitor ripple current I in (ripple) 7 ma rms I out = I out (max), measured 2 ma pk-pk without standard filter. See Application Note 118 Reflected ripple current I in (refl) 2 ma rms I out = I out (max), measured 5.5 ma pk-pk with standard filter. See Application Note 118 Input capacitance - C input 2.4 3 5.4 μf Internal to converter Internal Input capacitance - C bypass 33 μf Recommended customer External bypass added capacitance EXQ125-48S1V8J Model Electrical Characteristics - O/P Nominal set-point voltage Vo (nom) 1.773 1.8 1.827 Vdc V in = V in (nom) ; I out = I out (nom) Total regulation band V o 1.746 1.854 Vdc For all line, static load and temperature until end of life Line regulation.1.1 % I out = I out (nom), V in (min) to V in (max) Load regulation.2.2 % V in = V in (nom), I out (min) to I out (max) Temperature regulation.2.2 ±%/ C V in = V in (nom), I out =I out (max) Output current continuous Iout 3 Adc Output current - short circuit I sc 32 35 38 A rms Continuous, unit auto recovers from short, V o < 1 mv Load transient response - V dynamic/ 3 % Peak deviation for 5% to 75% peak deviation Vo (nom) step load, di/dt = 1 ma/μs, % of Vo (nom) Load transient response - T recovery 1 15 μs Settling time to within 1% of recovery output set point voltage for 5% to 75% load step External load capacitance C ext 1, μf Higher load capacitance values may be possible. Contact Artesyn Technologies for details Output voltage - noise V p-p 45 6 mv pk-pk Measurement bandwidth 2 MHz V rms 15 2 mv rms See Application Note 118 for test set-up

12 of 36 EXQ125-48S1V8J Model Protection and Control Features Overvoltage clamp voltage V ov 2. 2.3 Vdc Non-latching. See Application Note 118 for details Overcurrent limit inception I oc 32 35 38 Adc V o = 9% of V o (nom) Output voltage trim range 11 % Trim up (% of V o nom ) 9 % Trim down (% of V o nom ) See Application Note 118 for details of trim equations and trim curves Open sense voltage 1.77 1.83 1.89 Vdc EXQ125-48S1V8J Model Efficiency Efficiency h 86.5 88 % I out = 1% l out (max), V in = V in (nom) Efficiency h 87 88 % I out = 5% I out (max), V in = V in (nom)

13 of 36 EXQ125-48S2V5J Model Input Characteristics Input current - operating I in 1.75 1.78 Adc V in = V in (nom) ; I out = I out (max) ; V o = V o (nom) Input current - maximum I in (max.) 2.57 2.6 Adc V in = V in (min) ; I out = I out (max) ; V o = V o (nom) (measured at converter) Input Capacitor ripple current I in (ripple) 9 ma rms I out = I out (max), measured 25 ma pk-pk without standard filter. See Application Note 118 Reflected ripple current I in (refl) 3 ma rms I out = I out (max), measured 7 ma pk-pk with standard filter. See Application Note 118 Input capacitance - C input 2.4 3 5.4 μf Internal to converter Internal Input capacitance - C bypass 33 μf Recommended customer External bypass added capacitance EXQ125-48S2V5J Model Electrical Characteristics - O/P Nominal set-point voltage Vo (nom) 2.462 2.5 2.538 Vdc V in = V in (nom) ; I out = I out (nom) Total regulation band V o 2.425 2.575 Vdc For all line, static load and temperature until end of life Line regulation.1.1 % I out = I out (nom), V in (min) to V in (max) Load regulation.2.2 % V in = V in (nom), I out (min) to I out (max) Temperature regulation.2.2 ±%/ C V in = V in (nom), I out =I out (max) Output current continuous Iout 3 Adc Output current - short circuit I sc 32 35 38 A rms Continuous, unit auto recovers from short, V o < 1 mv Load transient response - V dynamic/ 2 % Peak deviation for 5% to 75% peak deviation Vo (nom) step load, di/dt = 1 ma/μs, % of Vo (nom) Load transient response - T recovery 1 15 μs Settling time to within 1% of recovery output set point voltage for 5% to 75% load step External load capacitance C ext 1, μf Higher load capacitance values may be possible. Contact Artesyn Technologies for details Output voltage - noise V p-p 45 6 mv pk-pk Measurement bandwidth 2 MHz V rms 15 2 mv rms See Application Note 118 for test set-up

14 of 36 EXQ125-48S2V5J Model Protection and Control Features Overvoltage clamp voltage V ov 2.8 3.1 Vdc Non-latching. See Application Note 118 for details Overcurrent limit inception I oc 32 35 38 Adc V o = 9% of V o (nom) Output voltage trim range 11 % Trim up (% of V o nom ) 9 % Trim down (% of V o nom ) See Application Note 118 for details of trim equations and trim curves Open sense voltage 2.5 2.54 2.62 Vdc EXQ125-48S2V5J Model Efficiency Efficiency h 89 9 % I out = 1% Iout (max), V in = V in (nom) Efficiency h 89 9 % I out = 5% I out (max), V in = V in (nom)

15 of 36 EXQ125-48S3V3J Model Input Characteristics Input current - operating I in 1.89 1.92 Adc V in = V in (nom) ; I out = I out (max) ; V o = V o (nom) Input current - maximum I in (max.) 2.78 2.81 Adc V in = V in (min) ; I out = I out (max) ; V o = V o (nom) (measured at converter) Input Capacitor ripple current I in (ripple) 9 ma rms I out = I out (max), measured 25 ma pk-pk without external Pi filter Reflected ripple current I in (refl) 3 ma rms I out = I out (max), measured 7 ma pk-pk with standard filter. See Application Note 118 Input capacitance - C input 2.4 3 5.4 μf Internal to converter filter Internal Input capacitance - C bypass 33 μf Recommended customer External bypass added capacitance EXQ125-48S3V3J Model Electrical Characteristics - O/P Nominal set-point voltage Vo (nom) 3.25 3.3 3.35 Vdc V in = V in (nom) ; I out = I out (nom) Total regulation band V o 3.2 3.4 Vdc For all line, static load and temperature until end of life Line regulation.1.1 % I out = I out (nom), V in (min) to V in (max) Load regulation.2.2 % V in = V in (nom), I out (min) to I out (max) Temperature regulation.2.2 ±%/ C V in = V in (nom), I out =I out (max) Output current continuous Iout 3 Adc Output current - short circuit I sc 27 29 32 A rms Continuous, unit auto recovers from short, V o < 1 mv Load transient response - V dynamic/ 2 % Peak deviation for 5% to 75% peak deviation Vo (nom) step load, di/dt = 1 ma/μs, % of Vo (nom) Load transient response - T recovery 1 15 μs Settling time to within 1% of recovery output set point voltage for 5% to 75% load step External load capacitance C ext 1, μf Higher load capacitance values may be possible. Contact Artesyn Technologies for details Output voltage - noise V p-p 45 6 mv pk-pk Measurement bandwidth 2 MHz V rms 15 2 mv rms See Application Note 118 for test set-up

16 of 36 EXQ125-48S3V3J Model Protection and Control Features Overvoltage clamp voltage V ov 3.65 4.1 Vdc Non-latching. See Application Note for details Overcurrent limit inception I oc 27 28.5 32 Adc V o = 9% of V o (nom) Output voltage trim range 11 % Trim up (% of V o nom ) 9 % Trim down (% of V o nom ) See Application Note for details of trim equations and trim curves Open sense voltage 3.3 3.38 3.45 Vdc EXQ125-48S3V3J Model Efficiency Efficiency h 9 91 % I out = 1% Iout (max), V in = V in (nom) Efficiency h 9 91 % I out = 5% I out (max), V in = V in (nom)

17 of 36 EXQ125-48S5J Model Input Characteristics Input current - operating I in 2.27 2.3 Adc V in = V in (nom) ; I out = I out (max) ; V o = V o (nom) Input current - maximum I in (max.) 3.34 3.38 Adc V in = V in (min) ; I out = I out (max) ; V o = V o (nom), measured at converter Input Capacitor ripple current I in (ripple) 15 ma rms I out = I out (max), measured 5 ma pk-pk without standard filter. See Application Note 118 Reflected ripple current I in (refl) 4 ma rms I out = I out (max), measured 8 ma pk-pk with standard filter. See Application Note 118 Input capacitance - C input 2.4 3 5.4 μf Internal to converter Internal Input capacitance - C bypass 33 μf Recommended customer External bypass added capacitance EXQ125-48S5J Model Electrical Characteristics - O/P Nominal set-point voltage Vo (nom) 4.925 5. 5.75 Vdc V in = V in (nom) ; I out = I out (nom) Total regulation band V o 4.85 5.15 Vdc For all line, static load and temperature until end of life Line regulation.1.1 % I out = I out (nom), V in (min) to V in (max) Load regulation.2.2 % V in = V in (nom), I out (min) to I out (max) Temperature regulation.2.2 ±%/ C V in = V in (nom), I out =I out (max) Output current continuous Iout 2 Adc Output current - short circuit I sc 22 24 26 A rms Continuous, unit auto recovers from short, V o < 1 mv Load transient response - V dynamic/ 2 % Peak deviation for 5% to 75% peak deviation Vo (nom) step load, di/dt = 1 ma/μs, % of Vo (nom) Load transient response - T recovery 1 15 μs Settling time to within 1% of recovery output set point voltage for 5% to 75% load step External load capacitance C ext 2,2 μf Higher load capacitance values may be possible. Contact Artesyn Technologies for details Output voltage - noise V p-p 45 6 mv pk-pk Measurement bandwidth 2 MHz V rms 15 2 mv rms See Application Note 118 for test set-up

18 of 36 EXQ125-48S5J Model Protection and Control Features Overvoltage clamp voltage V ov 5.6 6.1 Vdc Non-latching. See Application Note 118 for details Overcurrent limit inception I oc 22 24 26 Adc V o = 9% of V o (nom) Output voltage trim range 11 % Trim up (% of V o nom ) 9 % Trim down (% of V o nom ) See Application Note 118 for details of trim equations and trim curves Open sense voltage 4.85 5. 5.25 Vdc EXQ125-48S5J Model Efficiency Efficiency h 9.8 92 % I out = 1% l out (max), V in = V in (nom) Efficiency h 91 92.2 % I out = 5% I out (max), V in = V in (nom)

19 of 36 EXQ125-48S12J Model Input Characteristics Input current - operating I in 2.23 2.26 Adc V in = V in (nom) ; I out = I out (max) ; V o = V o (nom) Input current - maximum I in (max.) 3.3 3.33 Adc V in = V in (min) ; I out = I out (max) ; V o = V o (nom), measured at converter Input Capacitor ripple current I in (ripple) 15 ma rms I out = I out (max), measured 5 ma pk-pk without standard filter. See Application Note 118 Reflected ripple current I in (refl) 4 ma rms I out = I out (max), measured 8 ma pk-pk with standard filter. See Application Note 118 Input capacitance - C input 2.4 3 5.4 μf Internal to converter Internal Input capacitance - C bypass 33 μf Recommended customer External bypass added capacitance EXQ125-48S12J Model Electrical Characteristics - O/P Nominal set-point voltage Vo (nom) 11.82 12 12.18 Vdc V in = V in (nom) ; I out = I out (nom) Total regulation band V o 11.64 12.36 Vdc For all line, static load and temperature until end of life Line regulation.1.1 % I out = I out (nom), V in (min) to V in (max) Load regulation.2.2 % V in = V in (nom), I out (min) to I out (max) Temperature regulation.2.2 ±%/ C V in = V in (nom), I out =I out (max) Output current continuous Iout 8.3 Adc Output current - short circuit I sc 8.8 9.5 11 A rms Continuous, unit auto recovers from short, V o < 1 mv Load transient response - V dynamic/ 2 % Peak deviation for 5% to 75% peak deviation Vo (nom) step load, di/dt = 1 ma/μs, % of Vo (nom) Load transient response - T recovery 1 15 μs Settling time to within 1% of recovery output set point voltage for 5% to 75% load step External load capacitance C ext 1, μf Higher load capacitance values may be possible. Contact Artesyn Technologies for details Output voltage - noise V p-p 6 1 mv pk-pk Measurement bandwidth 2 MHz V rms 2 3 mv rms See Application Note 118 for test set-up

2 of 36 EXQ125-48S12J Model Protection and Control Features Overvoltage clamp voltage V ov 13.5 14.6 Vdc Non-latching. See Application Note 118 for details Overcurrent limit inception I oc 8.8 9.5 11 Adc V o = 9% of V o (nom) Output voltage trim range 11 % Trim up (% of V o nom ) 9 % Trim down (% of V o nom ) See Application Note 118 for details of trim equations and trim curves Open sense voltage 11.6 12 12.5 Vdc EXQ125-48S12J Model Efficiency Efficiency h 91.8 93 % I out = 1% l out (max), V in = V in (nom) Efficiency h 91.5 92.8 % I out = 5% I out (max), V in = V in (nom)

21 of 36 EXQ125-48S1V2J Model 35 88 OUTPUT CURRENT (A) 3 25 2 15 1 5 25 35 45 55 65 75 85 1LFM (.5m/s) 2LFM (1m/s) 3LFM (1.5m/s) 4LFM (2.m/s) 86 84 82 8 78 33 41 5 58 67 75 AMBIENT AIR TEMPERATURE ( C) INPUT VOLTAGE (V) Figure 1: Derating Curve with Forced Air Figure 2: Efficiency vs. Line 1 87 86 85 84 83 82-4 -2 2 4 6 8 1 Low Line High Line 95 9 85 8 75 7 65 6 5 1 15 2 25 3 Low Line High Line BASEPLATE TEMPERATURE ( C) OUTPUT CURRENT (A) Figure 3: Typical Efficiency vs. Baseplate Temperature Figure 4: Efficiency vs. Load Output Voltage (V) 2. 1.5 1..5. -.5-1. -1.5 @ Min Input @ Non Input @ Max Input Input Output Voltage (V) 2. 1.5 1..5. -.5-1. -1.5 Low Line High Line Signal -2. 2 4 6 8 1 12 14 16 18 2-2. 1 2 3 4 5 6 7 8 9 1 Time (msec) Time (msec) Figure 5: Turn-on Characteristic Figure 6: Control On/Off Characteristic

22 of 36 EXQ125-48S1V2J Model OUTPUT VOLTAGE (V).8.6.4.2. Voltage Current OUTPUT VOLTAGE (V).2. -.2 -.4 -.6 -.8 Voltage Current..1.2.3.4.5.6.7.8.9 1...1.2.3.4.5.6.7.8.9 1. Figure 7: Typical Transient Response 75-5% Step Load Change Figure 8: Typical Transient Response 5-75% Step Load Change VOLTAGE (2mV/Div) OUTPUT VOLTAGE (A) 1.4 1.2 1..8.6.4.2 5 1 15 2 25 3 35 4 TIME (1. μsec/div) OUTPUT CURRENT (AMPS) Figure 9: Typical Output Ripple and Noise Measurement Figure 1: Current Limit Characteristic

23 of 36 EXQ125-48S1V5J Model 89 OUTPUT CURRENT (A) 3 2 1 25 35 45 55 65 75 85 1LFM (.5m/s) 2LFM (1m/s) 3LFM (1.5m/s) 4LFM (2.m/s) 87 85 83 81 79 33 41 5 58 67 75 AMBIENT AIR TEMPERATURE ( C) INPUT VOLTAGE (V) Figure 11: Derating Curve with Forced Air Figure 12: Efficiency vs. Line 89 1 88 87 86 85 84 83 82-4 -2 2 4 6 8 1 Low Line High Line 8 6 4 2 5 1 15 2 25 3 Low Line High Line BASEPLATE TEMPERATURE ( C) OUTPUT CURRENT (A) Figure 13: Typical Efficiency vs. Baseplate Temperature Figure 14: Efficiency vs. Load Output Voltage (V) 2. 1.5 1..5. -.5-1. -1.5 @ Min Input @ Nom Input @ Max Input Input Output Voltage (V) 2. 1.5 1..5. -.5-1. -1.5 Low Line High Line Signal -2. 2 4 6 8 1 12 14 16 18 2-2. 1 2 3 4 5 6 7 8 9 1 Time (msec) Time (msec) Figure 15: Turn-on Characteristic Figure 16: Control On/Off Characteristic

24 of 36 EXQ125-48S1V5J Model OUTPUT VOLTAGE (V).2.15.1.5. Voltage Current OUTPUT VOLTAGE (V).5. -.5 -.1 Voltage Current..1.2.3.4.5.6.7.8.9 1...1.2.3.4.5.6.7.8.9 1. Figure 17: Typical Transient Response 75-5% Step Load Change Figure 18: Typical Transient Response 5-75% Step Load Change VOLTAGE (4mV/Div) OUTPUT VOLTAGE 1.6 1.4 1.2 1..8.6.4.2 5 1 15 2 25 3 35 4 TIME (2. μsec/div) OUTPUT CURRENT (AMPS) Figure 19: Typical Output Ripple and Noise Measurement Figure 2: Current Limit Characteristic

25 of 36 EXQ125-48S1V8J Model 35 9 OUTPUT CURRENT (A) 3 25 2 15 1 5 1LFM (.5m/s) 2LFM (1m/s) 3LFM (1.5m/s) 4LFM (2.m/s) 88 86 84 82 25 55 35 45 65 75 85 AMBIENT AIR TEMPERATURE ( C) 8 33 41 5 58 67 75 INPUT VOLTAGE (V) Figure 21: Derating Curve with Forced Air Figure 22: Efficiency vs. Line 1 89 88 87 86 85 Low Line High Line 8 6 4 2 Low Line High Line 84-4 -2 2 4 6 8 1 BASEPLATE TEMPERATURE ( C) 15. 5. 1. 2. 25. 3. OUTPUT CURRENT (A) Figure 23: Typical Efficiency vs. Baseplate Temperature Figure 24: Efficiency vs. Load 2. 2. OUTPUT VOLTAGE (V) 1.5 1..5. @ Min Input @ Nom Input @ Max Input Input OUTPUT VOLTAGE (V) 1.5 1..5. Min Input Nom Input Max Input Input 4 8 12 16 2 2 4 6 8 1 Figure 25: Turn-on Characteristic Figure 26: Control On/Off Characteristic

26 of 36 EXQ125-48S1V8J Model OUTPUT VOLTAGE (V).8.6.4.2. Voltage Current OUTPUT VOLTAGE (V).2. -.2 -.4 -.6 Voltage Current..5.1.15.2.25.3.35.4.45.5..5.1.15.2.25.3.35.4.45.5 Figure 27: Typical Transient Response 75-5% Figure 28: Typical Transient Response 5-75% Step Load Change Step Load Change VOLTAGE (2mV/Div) OUTPUT VOLTAGE 2. 1.6 1.2.8.4 5 1 15 2 25 3 35 4 TIME (2. μsec/div) OUTPUT CURRENT AMPS Figure 29: Typical Output Ripple and Noise Measurement Figure 3: Current Limit Characteristic

27 of 36 EXQ125-48S2V5J Model 35 92 OUTPUT CURRENT (A) 3 25 2 15 1 5 1LFM (.5m/s) 2LFM (1m/s) 3LFM (1.5m/s) 4LFM (2.m/s) 9 88 86 84 25 55 35 45 65 75 85 AMBIENT AIR TEMPERATURE ( C) 82 33 41 5 58 66 75 INPUT VOLTAGE (V) Figure 31: Derating Curve with Forced Air Figure 32: Efficiency vs. Line 1 91 9 89 88 87 Low Line High Line 8 6 4 2 Low Line High Line 86-4 -2 2 4 6 8 1 BASEPLATE TEMPERATURE ( C) 15. 5. 1. 2. 25. 3. OUTPUT CURRENT (A) Figure 33: Typical Efficiency vs. Baseplate Temperature Figure 34: Efficiency vs. Load 3. 3. OUTPUT VOLTAGE (V) 2. 1.. @ Min Input @ Nom Input @ Max Input Input OUTPUT VOLTAGE (V) 2. 1. @ Min Input @ Nom Input @ Max Input Input 4 8 12 16 2 2 4 6 8 1 Figure 35: Turn-on Characteristic Figure 36: Control On/Off Characteristic

28 of 36 EXQ125-48S2V5J Model OUTPUT VOLTAGE (V).2.15.1.5. Voltage Current OUTPUT VOLTAGE (V).5. -.5 -.1 Voltage Current..1.2.3.4.5.6.7.8.9 1...1.2.3.4.5.6.7.8.9 1. Figure 37: Typical Transient Response 75-5% Step Load Change Figure 38: Typical Transient Response 5-75% Step Load Change (VOLTAGE) 1mV/Div OUTPUT VOLTAGE 3. 2.5 2. 1.5 1..5 5 1 15 2 25 3 35 4 TIME (1. μsec/div) OUTPUT CURRENT (AMPS) Figure 39: Output Ripple and Noise Measurement Figure 4: Current Limit Characteristic

29 of 36 EXQ125-48S3V3J Model 35 93 OUTPUT CURRENT (A) 3 25 2 15 1 5 1LFM (.5m/s) 2LFM (1m/s) 3LFM (1.5m/s) 4LFM (2.m/s) 91 89 87 85 25 55 35 45 65 75 85 AMBIENT AIR TEMPERATURE ( C) 83 32 41 5 58 66 75 INPUT VOLTAGE(V) Figure 41: Derating Curve with Forced Air Figure 42: Efficiency vs. Line 1 92 91 9 89 88 Low Line High Line 8 6 4 2 Low Line High Line 87-4 -2 2 4 6 8 1 BASEPLATE TEMPERATURE ( C) 12.5 4.2 8.3 16.7 2.8 25. OUTPUT CURRENT (A) Figure 43: Typical Efficiency vs. Baseplate Temperature Figure 44: Efficiency vs. Load OUTPUT VOLTAGE 4. 3. 2. 1.. @ Min Input @ Nom Input @ Max Input Input OUTPUT VOLTAGE 4. 3. 2. 1.. Min Input Nom Input Max Input Input 4 8 12 16 2 2 4 6 8 1 Figure 45: Turn-on Characteristic Figure 46: Control On/Off Characteristic

3 of 36 EXQ125-48S3V3J Model OUTPUT VOLTAGE (V).2.15.1.5. Voltage Current OUTPUT VOLTAGE (V).5. -.5 -.1 Voltage Current..1.2.3.4.5.6.7.8.9 1...1.2.3.4.5.6.7.8.9 1. Figure 47: Typical Transient Response 75-5% Figure 48: Typical Transient Response 5-75% Step Load Change Step Load Change VOLTAGE (2mV/Div) OUTPUT VOLTAGE 3.5 3. 2.5 2. 1.5 1..5 5 1 15 2 25 3 35 TIME (2.μSec/Div) OUTPUT CURRENT (AMPS) Figure 49: Output Ripple and Noise Measurement Figure 5: Current Limit Characteristic

31 of 36 EXQ125-48S5J Model OUTPUT CURRENT (A) 2 15 1 5 25 35 45 55 65 75 85 1LFM (.5m/s) 2LFM (1m/s) 3LFM (1.5m/s) 4LFM (2.m/s) 94 92 9 88 86 84 33 41 5 58 66 75 AMBIENT AIR TEMPERATURE ( C) INPUT VOLTAGE (V) Figure 51: Derating Curve with Forced Air Figure 52: Efficiency vs. Line 93 1 92 91 9 89 Low Line High Line 8 6 4 2 Low Line High Line 88-4 -2 2 4 6 8 1 BASEPLATE TEMPERATURE ( C) 1 3.3 6.6 13.3 16.6 2 OUTPUT CURRENT (A) Figure 53: Typical Efficiency vs. Baseplate Temperature Figure 54: Efficiency vs. Load 6. 6. Output Voltage (V) 4. 2.. -2. -4. @ Min Input @ Nom Input @ Max Input Input Output Voltage (V) 4. 2.. -2. -4. Low Line High Line Signal -6. 2 4 6 8 1 12 14 16 18 2-6. 1 2 3 4 5 6 7 8 9 1 Time (msec) Time (msec) Figure 55: Turn-on Characteristic Figure 56: Control On/Off Characteristic

32 of 36 EXQ125-48S5J Model OUTPUT VOLTAGE (V).2.1. Voltage Current OUTPUT VOLTAGE (V).5. -.5 -.1 -.15 Voltage Current..2.4.6.8 1...2.4.6.8 1. Figure 57: Typical Transient Response 75-5% Figure 58: Typical Transient Response 5-75% Step Load Change Step Load Change VOLTAGE (2mV/Div) OUTPUT VOLTAGE 6. 5. 4. 3. 2. 1. 5 1 15 2 25 3 TIME (2. μsec/div) OUTPUT CURRENT (AMPS) Figure 59: Output Ripple and Noise Measurement Figure 6: Current Limit Characteristic

33 of 36 EXQ125-48S12J Model 95 OUTPUT CURRENT (A) 8 6 4 2 4 45 5 55 6 65 7 75 8 85 1LFM (.5m/s) 2LFM (1m/s) 3LFM (1.5m/s) 4LFM (2.m/s) 93 91 89 87 85 33 41 5 58 67 75 AMBIENT AIR TEMPERATURE ( C) INPUT VOLTAGE (V) Figure 61: Derating Curve with Forced Air Figure 62: Efficiency vs. Line 1 94 93 92 91 9 Low Line High Line 8 6 4 2 Low Line High Line 89-4 -2 2 4 6 8 1 BASEPLATE TEMPERATURE ( C) 1 3 4 6 7 8 OUTPUT CURRENT (A) Figure 63: Typical Efficiency vs. Baseplate Temperature Figure 64: Efficiency vs. Load 12. 12. Output Voltage (V) 7. 2. @ Min Input @ Nom Input @ Max Input Input Output Voltage (V) 7. 2. Low Line High Line Signal 2 4 6 8 1 12 14 16 18 2 Time (msec) 2 4 6 8 1 12 14 16 18 2 Time (msec) Figure 65: Turn-on Characteristic Figure 66: Control On/Off Characteristic

34 of 36 EXQ125-48S12J Model OUTPUT VOLTAGE (V).4.3.2.1. Voltage Current OUTPUT VOLTAGE (V).1. -.1 -.2 -.3 -.4 Voltage Current..5.1.15.2.25.3.35.4.45.5..5.1.5.2.25.3.35.4.45.5 Figure 67: Typical Transient Response 75-5% Step Load Change Figure 68: Typical Transient Response 5-75% Step Load Change VOLTAGE (2mV/Div) TIME (2. μsec/div) OUTPUT VOLTAGE 14 12 1 8 6 4 2 2 4 6 8 1 12 OUTPUT CURRENT (AMPS) Figure 69: Output Ripple and Noise Measurement Figure 7: Current Limit Characteristic

35 of 36 Ø.4 [Ø1.9] (6 PLS) 2. [5.8] Ø.6 [Ø1.52] (2 PLS).5 [12.7].815 [2.7 ].515 [13.8 ].215 [5.4 ] 3 4 2 1 Bottom View 5 6 7 8.815 [2.7].665 [16.89].515 [13.8].365 [9.27].215 [5.46]. [.] M3 x.5 Threaded Through (4 PLS).7 [1.78] 2.28 [57.91] *.2 [5.8] *Standard available pin length..145 (3.68) and.11 (2.79) options also available. (See Notes 3 and 4 for ordering details) 1.3 [26.16] Top View 1.45 [36.83].21 [5.33].21 [5.33] 1.3 [26.16].815 [2.7].515 [13.8 ].215 [5.36 ]. [.] 1.86 [47.24] 1 8 7 2 6 5 3 4 Recommended Hole Pattern.7 [1.78].815 [2.7].665 [16.89].515 [13.8].365 [9.27].215 [5.46]. [.] Ø.73 [Ø1.85] (2 PLS) Ø.128 [Ø3.25] (4 PLS) ALL DIMENSIONS IN INCHES [mm] Pin Connections Pin No. Function 1 + Vin 2 ON/OFF 3 - Vin 4 - Vout 5 - Sense 6 Trim 7 + Sense 8 + Vout Figure 71: Dimensions and Pinout

EXQ125 48V SERIES Embedded Power for Business-Critical Continuity 36 of 36 Notes 1 The control pin is referenced to Vin-. 2 Active low Remote ON/OFF is available. Standard product is active high. When ordering active low parts, designate with the Suffix '-R' e.g. EXQ125-48S3V3-RJ. See Application Note 118 for detailed information regarding ON/OFF control control implementation. 3 When ordering.145" pin lengths designate with the Suffix'-N', e.g. EXQ125-48S3V3-NJ. If the product is already a '- R'suffix product then the suffix will be '-RNJ', e.g EXQ125-48S3V3-RNJ. 4 When ordering.11" pin lengths designate with the Suffix'-K', e.g. EXQ125-48S3V3-KJ. If the product is already a '-R' suffix product then the suffix will be '-RKJ e.g EXQ125-48S3V3-RKJ. CAUTION: Hazardous internal voltages and high temperatures. Ensure that unit is accessible only to trained personnel. The user must provide the recommended fusing in order to comply with safety approvals. Americas 581 Van Allen Way Carlsbad, CA 928 USA Telephone: +1 76 93 46 Facsimile: +1 76 93 698 Europe (UK) Waterfront Business Park Merry Hill, Dudley West Midlands, DY5 1LX United Kingdom Telephone: +44 () 1384 842 211 Facsimile: +44 () 1384 843 355 Asia (HK) 16th - 17th Floors, Lu Plaza 2 Wing Yip Street, Kwun Tong Kowloon, Hong Kong Telephone: +852 2176 3333 Facsimile: +852 2176 3888 For global contact, visit: www.powerconversion.com technicalsupport@powerconversion.com While every precaution has been taken to ensure accuracy and completeness in this literature, Emerson Network Power assumes no responsibility, and disclaims all liability for damages resulting from use of this information or for any errors or omissions. Emerson Network Power. The global leader in enabling business-critical continuity. AC Power Connectivity DC Power Embedded Power Inbound Power Integrated Cabinet Solutions Outside Plant Precision Cooling Site Monitoring and Services EmersonNetworkPower. com Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. 27 Emerson Electric Co.

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