PXB15-xxWSxx Single Output 15 Watt DC/DC Converters (with wide range input) The PXB15 series is approved to UL/CSA/EN/IEC 60950-1.
Data Sheet Jul. 20, 2010 15W, Single Output Absolute Maximum Rating Parameter Model Input Voltage Continuous Transient (100mS) Input Voltage Variation (complies with ETS300 132 part 4.
Data Sheet Jul.
Data Sheet Jul. 20, 2010 15W, Single Output General Specification Parameter Efficiency(See Page 21) (Vin = Vin(nom) ; Full Load ; TA=25 ºC) Model Min Typ 24WS3P3 86 24WS05 86 24WS12 87 24WS15 87 48WS3P3 86 48WS05 86 48WS12 87 48WS15 87 Max Unit % Isolation Voltage Input to Output All Input (Output) to Case 1600 VDC 1000 Isolation Resistance All Isolation Capacitance All 1 GΩ Switching Frequency All 400 KHz Weight All 15 g All 1.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves All test conditions are at 25 ºC. PXB15-24WS3P3 Efficiency versus Output Current Typical Output Ripple and Noise. Vin = Vin(nom) ; Full Load Efficiency versus Input Voltage.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC. PXB15-24WS05 Efficiency versus Output Current Typical Output Ripple and Noise. Vin = Vin(nom) ; Full Load Efficiency versus Input Voltage.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC. PXB15-24WS12 Efficiency versus Output Current Typical Output Ripple and Noise. Vin = Vin(nom) ; Full Load Efficiency versus Input Voltage.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC. PXB15-24WS15 Efficiency versus Output Current Typical Output Ripple and Noise. Vin = Vin(nom) ; Full Load Efficiency versus Input Voltage.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC. PXB15-48WS3P3 Efficiency versus Output Current Typical Output Ripple and Noise. Vin = Vin(nom) ; Full Load Efficiency versus Input Voltage.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC. PXB15-48WS05 Efficiency versus Output Current Typical Output Ripple and Noise. Vin = Vin(nom); Full Load Efficiency versus Input Voltage.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC. PXB15-48WS12 Efficiency versus Output Current Typical Output Ripple and Noise. Vin = Vin(nom) ; Full Load Efficiency versus Input Voltage.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC. PXB15-48WS15 Efficiency versus Output Current Typical Output Ripple and Noise. Vin = Vin(nom) ; Full Load Efficiency versus Input Voltage.
Data Sheet Jul. 20, 2010 15W, Single Output Characteristic Curves (Continued) All test conditions are at 25 ºC.
Data Sheet Jul. 20, 2010 15W, Single Output Testing Configurations Input reflected-ripple current measurement CURRENT PROBEMEASURE POINT +Vin L + BATTERY C1 + C2 -Vin Component L C1 C2 Value 12μH 10μF 10μF Voltage ---100V 100V Reference ---Aluminum Electrolytic Capacitor Aluminum Electrolytic Capacitor Peak-to-peak output ripple & noise measurement Output voltage and efficiency measurement Note: All measurements are taken at the module terminals.
Data Sheet Jul. 20, 2010 15W, Single Output EMC considerations C3 - INPUT +Vin C1 - INPUT +Vout C2 LOAD -Vin -Vout D/D Converter C4 Suggested schematic for EN55022 conducted emission Class A limits Recommended layout with input filter To meet conducted emissions EN55022 CLASS A, the following components are needed: Component C1 C2 C3,C4 Value 6.8uF 6.8uF 470pF Voltage 50V 50V 2KV Component C1 C2 C3,C4 Value 2.2uF 2.
Data Sheet Jul. 20, 2010 15W, Single Output EMC considerations (Continued) Suggested schematic for EN55022 conducted emission Class B limits Recommended layout with input filter To meet conducted emissions EN55022 CLASS B, the following components are needed: PXB15-24WSXX Component Value C1,C3 6.8μF C2 ---C4,C5 470pF L1 325μH PXB15-48WSXX Component Value C1,C3 2.2μF C2 2.
Data Sheet Jul. 20, 2010 15W, Single Output EMC considerations (Continued) This Common Choke L1 is defined as follow: ■ L: 325μH±35% / DCR: 35Ω, max A height: 8.8 mm, Max ■ Test condition: 100KHz / 100mV ■ Recommended through hole: Φ0.8mm ■ All dimensions in millimeters Input Source Impedance The power module should be connected to a low impedance input source. Highly inductive source impedance can affect the stability of the power module.
Data Sheet Jul. 20, 2010 15W, Single Output Output Voltage Adjustment Output voltage set point adjustment allows the user to increase or decrease the output voltage set point of a module. This is accomplished by connecting an external resistor between the TRIM pin and either the Vo (+) or Vo (-) pins. With an external resistor between the TRIM and Vo (-) pin, the output voltage set point increases. With an external resistor between the TRIM and Vo (+) pin, the output voltage set point decreases.
Data Sheet Jul. 20, 2010 15W, Single Output Short Circuit Protection Continuous, hiccup and auto-recovery mode. During a short circuit condition the converter will shut down. The average current during this condition will be very low and damage to this device should not occur. Thermal Consideration The power module operates in a variety of thermal environments. However, sufficient cooling should be provided to help ensure reliable operation of the unit.
Data Sheet Jul. 20, 2010 15W, Single Output Remote ON/OFF Control The Remote ON/OFF Pin is used t o turn the DC/DC power module on and off. The user must connect a switch between the on/off pin and the Vi (-) pin. The switch can be an open collector transistor, FET, or Photo-Coupler. The switch must be capable of sinking up to 1 mA when using a low logic level voltage. When using a high logic level, the maximum signal voltage is 15V and the maximum allowable leakage current of the switch is 50 uA.
Data Sheet Jul. 20, 2010 15W, Single Output Mechanical Data PIN CONNECTION PIN PXB15WS Series 1 2 3 4 5 6 + INPUT - INPUT ON/OFF +VOUT TRIM -VOUT OPTIONS 1. All dimensions in Inches (mm) Tolerance: X.XX±0.02 (X.X±0.5) X.XXX±0.01 (X.XX±0.25) 2. Pin pitch tolerance ±0.01(0.25) 3. Pin dimension tolerance ±0.004 (0.1) EXTERNAL OUTPUT TRIMMING Output can be externally trimmed by using the method shown below. TRIM UP Descriptions P N T Positive Logic Negative Logic Trim -NT as standard.
Data Sheet Jul.
Data Sheet Jul. 20, 2010 15W, Single Output Soldering Considerations Lead free wave solder profile for PXB15W-SERIES Zone Preheat zone Actual heating Reference Parameter. Rise temp. speed: 3 ºC /sec max. Preheat temp.: 100~130 ºC Peak temp.: 250~260 ºC Peak time(T1+T2 time): 4~6 sec Reference Solder: Sn-Ag-Cu; Sn-Cu Hand Welding: Soldering iron: Power 90W Welding Time: 2~4 sec Temp.: 380~400 ºC Packaging Information 300 26.
Data Sheet Jul. 20, 2010 15W, Single Output Part Number Structure PXB 15 – 24W S 05 -A Total Output power 15 Watt Option Suffix Input Voltage Range 24xxx : 9~36V 48xxx : 18~75V Output Voltage 3P3 : 3.3V 05 : 5V Single Output Model Number Input Range Output Voltage (2) Output Current Full Load Input Current (1) Full Load Eff (%) 4000mA 3000mA 1300mA 1000mA 4000mA 3000mA 1300mA 1000mA 688mA 762mA 783mA 753mA 336mA 382mA 392mA 377mA 86 86 87 87 86 86 87 87 PXB15-24WS3P3 9 - 36 VDC 3.
