PDF iQL48060A033V Data sheet ( Hoja de datos )

Número de pieza	iQL48060A033V
Descripción	DC/DC Power Modules
Fabricantes	TDK
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No Preview Available ! Data Sheet: AscetaTM iQL Series –Single Output Quarter Brick Asceta™ iQL Series DC/DC Power Modules 48V Input, 3.3V / 60A /198W Output Quarter Brick The Asceta™ power module series provides exceptionally high true useable power in an industry standard quarter brick format. Its 91% full load efficiency (92% at 70% load) and superior thermal performance make the Asceta series of DC-DC converters is ideally suited for tight space, power-hungry, and thermal challenging distributed power architectures in demanding thermal environments. This rugged building block is designed to serve as the core of your high reliability system. A wide output voltage trim range, -20 to +10%, and remote sensing are standard feature enhancing versatility. Standard Features: • RoHS Compliant • Standard Quarter Brick • Nominal Size: 2.28” × 1.45” × 0.5” (57.9mm × 36.8mm × 12.7mm) • Up to 60A of output current • Output power – up to 198W • Power density: 120W / in3 • Efficiency – up to 93% • Full load efficiency at 48V input: 91% • Efficiency at 70% load and 48V input: 92% • Single board design with high usable power 47A at 65°C, 200LFM (no base-plate) 51A at 65°C, 200LFM (with base-plate) • Industry standard output voltage trim • Remote sense • Basic insulation – 1500Vdc • Negative remote on/off logic • Monotonic start-up into a pre-biased output • Constant switching frequency • Auto-recovery protection for input UVP • Auto-recovery over-current protection • Auto-recovery over-temperature protection • Latched over-voltage protection • UL 60950 (US and Canada), VDE 0805, CB scheme (IEC950) • CE Mark (EN60950) • EMI: CISPR 22 A or B with external filter • Multiple patents • ISO Certified manufacturing facilities Optional Features: • Positive remote on/off logic • Latched over-current protection • Latched over-temperature protection • Auto-recovery OVP • 3.68 mm (0.145”) Thru-hole pins • Base-plate option ©2010 TDK Innoveta Inc. iQL 3.3V/60A Datasheet Rev 1.7 1/6/2010 ℡ (877) 498-0099 1/16 1 page Data Sheet: AscetaTM iQL Series –Single Output Quarter Brick Electrical Data: iQL48060A033V-000 through -0x9: 3.3V, 60A, 198W Output Characteristic Output Voltage Initial Setpoint Output Voltage Tolerance Efficiency at 100% Load Efficiency at 70% Load (42A) Line Regulation Load Regulation Temperature Regulation Output Current Output Current Limiting Threshold Short Circuit Current Output Ripple and Noise Voltage Output Voltage Adjustment Range Output Voltage Sense Range Dynamic Response: Recovery Time to 10% of Peak Deviation Transient Voltage Min 3.23 3.20 --- --- --- --- --- 0 --- --- --- --- 80 --- --- --- Typ 3.3 3.3 91 92 2 3 5 --- 70 2 35 2 --- --- 200 80 Max 3.37 3.40 --- --- 6.6 15 50 60 --- --- 100* --- 110 --- --- --- Unit Vdc Vdc % % mV mV mV A A A mVpp mVrms %Vo,nom %Vo,nom µS mV Notes & Conditions Vin=Vin,nom; Io=Io,max; Tc = 25˚C Over all rated input voltage, load, and temperature conditions to end of life Vin=Vin,nom; Io=Io,max; Tc = 25˚C Vin=Vin,nom; Io=70% of Io,max; Tc = 25˚C Vin=Vin,min to Vin,max, Io and Tc fixed Io=Io,min to Io,max, Vin and Tc fixed Tc=Tc,min to Tc,max, Vin and Io fixed At Io < 20% of Io,max, the load transient performance may degrade slightly Vo = 0.9Vo,nom, Tc<Tc,max Vo = 0.25V, Tc = 25C (hiccup mode) Vin=48V, Io ≥ Io,min, Tc=25˚C. Measured across one 0.1uF, one 1.0 uF, and one 47uF ceramic capacitors, and one 440uF electrolytic capacitor located 2 inches away – see input/output ripple measurement figure; BW = 20MHz di/dt = 0.1A/uS, Vin=Vin,nom; load step from 50% to 75% of Io,max, Tc=25˚C with at least one 1.0 uF, one 47uF ceramic capacitors, and one 440uF electrolytic capacitor across the output terminals Output Voltage Overshoot during startup Switching Frequency Output Over Voltage Protection External Load Capacitance Isolation Capacitance Isolation Resistance Vref 0 0 --- --- 130 --- 3.8 4.1 4.4* mV kHz V 488 --- 40,000 † uF --- 450 --- 15 --- --- 1.225 pF MΩ V * Engineering Estimate † Contact TDK Innoveta for applications that require additional capacitance or very low ESR Vin=Vin,nom; Io=Io,max,Tc=25˚C Fixed Cext,min required for the 100% load dump. Minimum ESR > 2.5 mΩ Required for trim calculation ©2010 TDK Innoveta Inc. iQL 3.3V/60A Datasheet Rev 1.7 1/6/2010 ℡ (877) 498-0099 5/16 5 Page Data Sheet: AscetaTM iQL Series –Single Output Quarter Brick performance page for the power module of interest. In all conditions, the power module should be operated below the maximum operating temperature shown on the derating curve. For improved design margins and enhanced system reliability, the power module may be operated at temperatures below the maximum rated operating temperature. Heat transfer by convection can be enhanced by increasing the airflow rate that the power module experiences. The maximum output current of the power module is a function of ambient temperature (TAMB) and airflow rate as shown in the thermal performance figures on the thermal performance page for the power module of interest. The curves in the figures are shown for natural convection through 3 m/s (600 ft/min). The data for the natural convection condition has been collected at 0.3 m/s (60 ft/min) of airflow, which is the typical airflow generated by other heat dissipating components in many of the systems that these types of modules are used in. In the final system configurations, the airflow rate for the natural convection condition can vary due to temperature gradients from other heat dissipating components. Heatsink Usage: For applications with demanding environmental requirements, such as higher ambient temperatures or higher power dissipation, the thermal performance of the power module can be improved by attaching a heatsink or cold plate. The iQL platform is designed with a base plate with two M3 X 0.5 through- threaded mounting fillings for attaching a heatsink or cold plate. The addition of a heatsink can reduce the airflow requirement; ensure consistent operation and extended reliability of the system. With improved thermal performance, more power can be delivered at a given environmental condition. Standard heatsink kits are available from TDK Innoveta Inc. for vertical module mounting in two different orientations (longitudinal – perpendicular to the direction of the pins and transverse – parallel to the direction of the pins). The heatsink kit contains four M3 x 0.5 steel mounting screws and a precut thermal interface pad for improved thermal resistance between the power module and the heatsink. The screws should be installed using a torque- limiting driver set between 0.35-0.55 Nm (3- 5 in-lbs). The system designer must use an accurate estimate or actual measure of the internal airflow rate and temperature when doing the heatsink thermal analysis. For each application, a review of the heatsink fin orientation should be completed to verify proper fin alignment with airflow direction to maximize the heatsink effectiveness. For TDK Innoveta standard heatsinks, contact TDK Innoveta Inc. for latest performance data ©2010 TDK Innoveta Inc. iQL 3.3V/60A Datasheet Rev 1.7 1/6/2010 ℡ (877) 498-0099 11/16 11 Page

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