Manufacturers
XP POWER JTA2024S15
Description
XP Power JTA2024S15 Converter - 20W DC/DC Converter
Part Number
JTA2024S15
Price
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Manufacturer
XP POWER
Lead Time
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Category
Converters
Specifications
Case Temperature
+100 °C max
Conducted Immunity
EN61000-4-6 3 V/m, Perf Criteria A
Cooling
Convection-cooled
Efficiency
83%+
Emissions
EN55022, level A conducted (below -25 °C), level B conducted (-25 °C to +100 °C), EN55022, level A radiated
ESD Immunity
EN61000-4-2, level 2 Perf Criteria A
Input Current
2.90 A max at 9 VDC input
Input Voltage Range
9-36 VDC
Isolation
1500 VDC Input to Output
Line Regulation
±1% max
Load Regulation
±1% max
Minimum Load
No minimum load required
MTBF
1,000 kHrs min per MIL-HDBK-217F
Operating Humidity
5-95% RH, non-condensing
Output Voltage Trim
±10%
Overcurrent Protection
Continuous with auto recovery
Radiated Immunity
EN61000-4-3 3 V/rms, Perf Criteria A
Remote On/Off
On is Logic High or Open; Off is Logic Low or
Ripple & Noise
50 mV pk-pk
Safety Approvals
UL60950-1
Setpoint Accuracy
±2%
Temperature
Operating:-40 °C to +100 °C, derating curve; Storage:-55 °C to +105 °C
Temperature Coefficient
0.02%/°C
Transient Response
4% max deviation, recovery to within 1% in
Datasheet
Extracted Text
10-20 Watts xppower.com JTA10/20 Series • 4:1 Input Range • -40 °C to +100 °C Operating Temperature • Single & Dual Outputs • Overvoltage & Overcurrent Protection • UL Safety Approvals • Remote On/Off • 1500 VDC Isolation Specification Input General Input Voltage Range • 9-36 VDC Efficiency • See table 18-75 VDC Isolation • 1500 VDC Input to Output Input Current • JTA10: 1.65 A max at 9 VDC input MTBF • 1,000 kHrs min per MIL-HDBK-217F JTA15: 2.20 A max at 9 VDC input JTA20: 2.90 A max at 9 VDC input Environmental Operating Temperature • -40 °C to +100 °C, see derating curve Output Case Temperature • +100 °C max Output Voltage • See table Cooling • Convection-cooled Output Voltage Trim • ±10% (15 & 20 W models only) Operating Humidity • 5-95% RH, non-condensing Voltage Balance • ±1% max dual models, 100% load Storage Temperature • -55 °C to +105 °C Minimum Load • No minimum load required for single output models, 10% required for dual EMC & Safety output models Emissions • EN55022, Line Regulation • ±1% max level A conducted (below -25 °C) Load Regulation • Single output models: ±1% max level B conducted (-25 °C to +100 °C) Dual output models: ±2% max See note 1. for a 10-100% load change EN55022, level A radiated Setpoint Accuracy •±2% ESD Immunity • EN61000-4-2, level 2 Ripple & Noise • Single output models: 50 mV pk-pk Perf Criteria A Dual output models: 75 mV pk-pk typical Radiated Immunity • EN61000-4-3 3 V/rms, at 20 MHz BW Perf Criteria A Transient Response • 4% max deviation, recovery to within Conducted Immunity • EN61000-4-6 3 V/m, 1% in <500 µs for a 25% load change Perf Criteria A Temperature • 0.02%/°C Safety Approvals • UL60950-1 Coefficient Overvoltage Protection • See table Overcurrent Protection • Continuous with auto recovery Remote On/Off • On = Logic High or Open Off = Logic Low or <1.8 V (15 & 20 W models only) DC-DC DC-DC JTA10 Models and Ratings Output V1 Output V2 Input Maximum Overvoltage Model Efficiency Voltage Power Protection Number V Nom I Max V Nom I Max 6.6 W 3.9 V 3.3 V 2.00 A 77% JTA1024S3V3 10.0 W 6.8 V 5.0 V 2.00 A 79% JTA1024S05 10.0 W 15.0 V 12.0 V 0.83 A 81% JTA1024S12 9-36 VDC 10.0 W 18.0 V 15.0 V 0.67 A 81% JTA1024S15 10.0 W 6.8 V 5.0 V 1.00 A -5.0 V 1.00 A 80% JTA1024D01 10.0 W 15.0 V 12.0 V 0.42 A -12.0 V 0.42 A 80% JTA1024D02 10.0 W 18.0 V 15.0 V 0.33 A -15.0 V 0.33 A 80% JTA1024D03 6.6 W 3.9 V 3.3 V 2.00 A 78% JTA1048S3V3 10.0 W 6.8 V 5.0 V 2.00 A 80% JTA1048S05 10.0 W 15.0 V 12.0 V 0.83 A 82% JTA1048S12 10.0 W 18.0 V 15.0 V 0.67 A 82% JTA1048S15 18-75 VDC 10.0 W 6.8 V 5.0 V 1.00 A -5.0 V 1.00 A 81% JTA1048D01 10.0 W 15.0 V 12.0 V 0.42 A -12.0 V 0.42 A 83% JTA1048D02 10.0 W 18.0 V 15.0 V 0.33 A -15.0 V 0.33 A 83% JTA1048D03 Notes 1. For EN55022 Level B performance below -25 ºC, a 100 µF (24 VDC input), 22 µF (48 VDC input) electrolytic capacitor is required across the input of the converter. Mechanical Details 1.00 (25.4) 0.41 0.50 (10.2) (12.7) 0.20 0.22 (5.1) (5.6) 0.60 PIN CONNECTIONS ( 15.2) Pin Single Output Dual Output 1 +Input +Input 2 -Input -Input 2 1 3 +Output +Output 4 No pin Common 2.00 0.80 Bottom View (50.8) (20.3) 5 -Output -Output 0.04 DIA 5 4 3 (1.0) All dimensions are in inches (mm) Weight: 0.06 lb (28 g) approx. Packaging Style: Copper case with non-conducting base 0.30 0.44 (7.6) (11.14) 0.10 (2.5) Application Notes Derating Curve 12 W 10 W 8 W 6 W 4 W 2 W 0 W -40 0 10 20 30 40 50 60 70 80 90 100 Ambient Temp ( ˚C) LOAD (W) JTA15 Models and Ratings Output V1 Output V2 Input Maximum Overvoltage Model Efficiency Voltage Power Protection Number V Nom I Max V Nom I Max 10 W 3.9 V 3.3 V 3.000 A 76% JTA1524S3V3 15 W 6.8 V 5.0 V 3.000 A 80% JTA1524S05 15 W 15.0 V 12.0 V 1.250 A 82% JTA1524S12 9-36 VDC 15 W 18.0 V 15.0 V 1.000 A 82% JTA1524S15 15 W 6.8 V 5.0 V 1.500 A -5.0 V 1.500 A 80% JTA1524D01 15 W 15.0 V 12.0 V 0.625 A -12.0 V 0.625 A 82% JTA1524D02 15 W 18.0 V 15.0 V 0.500 A -15.0 V 0.500 A 82% JTA1524D03 10 W 3.9 V 3.3 V 3.000 A 76% JTA1548S3V3 15 W 6.8 V 5.0 V 3.000 A 80% JTA1548S05 15 W 15.0 V 12.0 V 1.250 A 82% JTA1548S12 15 W 18.0 V 15.0 V 1.000 A 82% JTA1548S15 18-75 VDC 15 W 6.8 V 5.0 V 1.500 A -5.0 V 1.500 A 80% JTA1548D01 15 W 15.0 V 12.0 V 0.625 A -12.0 V 0.625 A 82% JTA1548D02 15 W 18.0 V 15.0 V 0.500 A -15.0 V 0.500 A 82% JTA1548D03 Notes 1. For EN55022 Level B performance below -25 ºC, a 220 µF (24 VDC input), 47 µF (48 VDC input) electrolytic capacitor is required across the input of the converter. Mechanical Details 1.60 (40.6) 0.70 0.50 (12.7) (17.8) 0.10 0.30 0.22 (2.5) (7.6) (5.6) 8 7 6 5 0.04 DIA PIN CONNECTIONS (1.0) Pin Single Output Dual Output 1 On/Off control On/Off control 2.00 3 -Vin -Vin (50.8) 4 +Vin +Vin 1.80 Bottom View 5 Trim Trim (45.7) 6 -Vout -Vout 7 +Vout Common 8 No pin +Vout 4 3 1 All dimensions are in inches (mm) Weight: 0.11 lb (50 g) approx. Packaging Style: Copper case with non-conducting base 0.70 0.20 0.45 (17.8) (5.1) (11.43) 0.60 (15.2) Application Notes Derating Curve Output Trim 17.5 W OUTPUT TRIM Output Voltage R Trim Down (kΩ) R Trim Up (kΩ) 15 W 3.3 V (6.180 - (12.10 x ΔVo))/ΔVo (3.484 - (7.511 x ΔVo))/ΔVo 5.0 V (5.788 - (10.57 x ΔVo))/ΔVo (5.788 - (8.250 x ΔVo))/ΔVo 12.5 W 12.0 V (86.496 - (60.10 x ΔVo))/ΔVo (19.763 - (14.366 x ΔVo))/ΔVo 15.0 V (150.000 - (87.00 x ΔVo))/ΔVo (25.585 - (14.516 x ΔVo))/ΔVo 10 W ±5.0 V (430.000 - (120.00 x ΔVo))/ΔVo (42.141 - (13.793 x ΔVo))/ΔVo 7.5 W ±12.0 V (743.000 - (177.00 x ΔVo))/ΔVo (56.644 - (17.647 x ΔVo))/ΔVo ±15.0 V (68.296 - (48.10 x ΔVo))/ΔVo (20.657 - (19.500 x ΔVo))/ΔVo 5 W Note: 1.ΔVo is the change in the trimmed output voltage from the nominal output voltage. 2.5 W Example: JTA1524S05 trimmed to 5.3 V 0 W ΔVo = 5.0 - 5.3 = 0.3 VDC -40 0 10 20 30 40 50 60 70 80 90 100 The equation is (5.788 - (8.25 x ΔVo))/ΔVo Ambient Temp ( ˚C) The value of resistor = (5.788 - (8.25 x 0.3))/0.3 = 11.04 KΩ Connect the resistor between TRIM pin and -Vo pin. DC-DC LOAD (W) DC-DC JTA20 Models and Ratings Output V1 Output V2 Input Maximum Overvoltage Model Efficiency Voltage Power Protection Number V Nom I Max V Nom I Max 13.2 W 3.9 V 3.3 V 4.00 A 78% JTA2024S3V3 20.0 W 6.8 V 5.0 V 4.00 A 81% JTA2024S05 20.0 W 15.0 V 12.0 V 1.67 A 83% JTA2024S12 9-36 VDC 20.0 W 18.0 V 15.0 V 1.33 A 83% JTA2024S15 20.0 W 6.8 V 5.0 V 2.00 A -5.0 V 2.00 A 83% JTA2024D01 20.0 W 15.0 V 12.0 V 0.83 A -12.0 V 0.83 A 83% JTA2024D02 20.0 W 18.0 V 15.0 V 0.67 A -15.0 V 0.67 A 83% JTA2024D03 13.2 W 3.9 V 3.3 V 4.00 A 78% JTA2048S3V3 20.0 W 6.8 V 5.0 V 4.00 A 82% JTA2048S05 20.0 W 15.0 V 12.0 V 1.67 A 84% JTA2048S12 20.0 W 18.0 V 15.0 V 1.33 A 84% JTA2048S15 18-75 VDC 20.0 W 6.8 V 5.0 V 2.00 A -5.0 V 2.00 A 84% JTA2048D01 20.0 W 15.0 V 12.0 V 0.83 A -12.0 V 0.83 A 84% JTA2048D02 20.0 W 18.0 V 15.0 V 0.67 A -15.0 V 0.67 A 84% JTA2048D03 Notes 1. For EN55022 Level B performance below -25 ºC, a 220 µF (24 VDC input), 47 µF (48 VDC input) electrolytic capacitor is required across the input of the converter. Mechanical Details 1.60 (40.6) 0.70 0.50 (17.8) (12.7) 0.10 0.30 0.22 (2.5) (7.6) (5.6) 8 7 6 5 0.04 DIA (1.0) PIN CONNECTIONS Pin Single Output Dual Output 1 On/Off control On/Off control 2.00 3 -Vin -Vin (50.8) 4 +Vin +Vin 1.80 Bottom View 5 Trim Trim (45.7) 6 -Vout -Vout 7 +Vout Common 8 No pin +Vout 4 3 1 All dimensions are in inches (mm) Weight: 0.11 lb (50 g) approx. 0.20 0.70 0.45 Packaging Style: Copper case with non-conducting base (17.8) (5.1) (11.43) 0.60 (15.2) Application Notes Derating Curve Output Trim 24 W OUTPUT TRIM Model Number R Trim Down (kΩ) R Trim Up (kΩ) 20 W 3.3 V (6.180 - (12.10 x ΔVo))/ΔVo (3.484 - (7.511 x ΔVo))/ΔVo A B 5.0 V (5.788 - (10.57 x ΔVo))/ΔVo (5.788 - (8.250 x ΔVo))/ΔVo 16 W 12.0 V (86.496 - (60.10 x ΔVo))/ΔVo (19.763 - (14.366 x ΔVo))/ΔVo 12 W 15.0 V (150.000 - (87.00 x ΔVo))/ΔVo (25.585 - (14.516 x ΔVo))/ΔVo ±5.0 V (430.000 - (120.00 x ΔVo))/ΔVo (42.141 - (13.793 x ΔVo))/ΔVo 8 W ±12.0 V (743.000 - (177.00 x ΔVo))/ΔVo (56.644 - (17.647 x ΔVo))/ΔVo ±15.0 V (68.296 - (48.10 x ΔVo))/ΔVo (20.657 - (19.500 x ΔVo))/ΔVo 4 W Note: 0 W 1.ΔVo is the change in the trimmed output voltage from the nominal output voltage. -40 0 10 20 30 40 50 60 70 80 90 100 Example: JTA2024S05 trimmed to 5.3 V Ambient Temp ( ˚C) ΔVo = 5.0 - 5.3 = 0.3 VDC Curve A: Convection cooling The equation is (5.788 - (8.25 x ΔVo))/ΔVo 100% load at +60 ˚C to 0% load at +100 ˚C The value of resistor = (5.788 - (8.25 x 0.3))/0.3 = 11.04 KΩ Curve B: 150 LFM airflow Connect the resistor between TRIM pin and -Vo pin. 100% load at +70 ˚C to 0% load at +100 ˚C 16-May-07 LOAD (W)
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