Upload
others
View
0
Download
0
Embed Size (px)
Citation preview
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 1
Characteristic Curves All test conditions are at 25℃.The figures are identical for either DOS06-05T and DOH06-05T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.75V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 2
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS06-05T and DOH06-05T
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 0.75V Vin = Vin(nom), Vout= 1.8V
Derating Output Load versus Ambient Temperature with Airflow Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 3.3V Vin = Vin(nom), Vout= 0.75V, Full Load
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 1.8V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 3
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS06-05T and DOH06-05T
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 2.5V
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load;
Vin = Vin(nom), Vout= 3.3V Cout = 2×150μF polymer capacitors
Vin = Vin(nom), Vout= 3.3V
Typical Input Start-Up and Output Rise Characteristic Using ON/OFF Voltage Start-Up and Vout Rise Characteristic Vin = Vin(nom), Vout= 3.3V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 4
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS06-05T and DOH06-05T
Output Short Circuit, Input Current
Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 5
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS06-12T and DOH06-12T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.75V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 6
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS06-12T and DOH06-12T
Efficiency versus Output Load Derating Output Load versus Ambient Temperature with Airflow
Vout= 5.0V Vin = Vin(nom), Vout= 0.75V
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 2.5V
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 3.3V Airflow Vin = Vin(nom), Vout= 5.0V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 7
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS06-12T and DOH06-12T
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 0.75V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
Typical Output Ripple and Noise. Transient Response to Dynamic Load Change from
Vin = Vin(nom), Vout= 5.0V, Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 1.8V
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 3.3V Vin = Vin(nom), Vout= 5.0V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 8
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS06-12T and DOH06-12T
Transient Response to Dynamic Load Change from Typical Input Start-Up and Output Rise Characteristic
100% to 50% to 100% of Full Load; Vin = Vin(nom), Vout= 3.3V, Full Load
Cout = 2×150μF polymer capacitors Vin = Vin(nom), Vout= 5.0V
Using ON/OFF Voltage Start-Up and Vo Rise Characteristic Output Short Circuit, Input Current
Vin = Vin(nom), Vout= 3.3V, Full Load Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 9
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS10-05T and DOH10-05T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.75V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 10
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS10-05T and DOH10-05T
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 0.75V Vin = Vin(nom), Vout= 1.8V
Derating Output Load versus Ambient Temperature with Airflow Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 3.3V Vin = Vin(nom), Vout= 0.75V, Full Load
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 1.8V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 11
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS10-05T and DOH10-05T
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 2.5V
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load;
Vin = Vin(nom), Vout= 3.3V Cout = 2×150μF polymer capacitors
Vin = Vin(nom), Vout= 3.3V
Typical Input Start-Up and Output Rise Characteristic Using ON/OFF Voltage Start-Up and Vout Rise Characteristic
Vin = Vin(nom), Vout= 3.3V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 12
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS10-05T and DOH10-05T
Output Short Circuit, Input Current
Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 13
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS10-12T and DOH10-12T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.75V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 14
Characteristic Curves (Continued)
Efficiency versus Output Load Derating Output Load versus Ambient Temperature with Airflow
Vout= 5.0V Vin = Vin(nom), Vout= 0.75V
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 3.3V
Derating Output Load versus Ambient Temperature with Airflow Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 5.0V Vin = Vin(nom), Vout= 0.75V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 15
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS10-12T and DOH10-12T
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 3.3V, Full Load Vin = Vin(nom), Vout= 5.0V, Full Load
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 3.3V
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load;
Vin = Vin(nom), Vout= 5.0V Cout = 2×150μF polymer capacitors
Vin = Vin(nom), Vout= 5.0V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 16
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS10-12T and DOH10-12T
Typical Input Start-Up and Output Rise Characteristic Using ON/OFF Voltage Start-Up and Vout Rise Characteristic
Vin = Vin(nom), Vout= 3.3V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
Output Short Circuit, Input Current
Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 17
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS16-05T and DOH16-05T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.75V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 18
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS16-05T and DOH16-05T
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 0.75V Vin = Vin(nom), Vout= 1.8V
Derating Output Load versus Ambient Temperature with Airflow Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 3.3V Vin = Vin(nom), Vout= 0.75V, Full Load
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 1.8V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 19
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS16-05T and DOH16-05T
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 2.5V
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load;
Vin = Vin(nom), Vout= 3.3V Cout = 2×150μF polymer capacitors
Vin = Vin(nom), Vout= 3.3V
Typical Input Start-Up and Output Rise Characteristic Using ON/OFF Voltage Start-Up and Vout Rise Characteristic
Vin = Vin(nom), Vout= 3.3V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 20
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS16-05T and DOH16-05T
Output Short Circuit, Input Current
Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 21
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS16-12T and DOH16-12T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.75V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 22
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS16-12T and DOH16-12T
Efficiency versus Output Load Derating Output Load versus Ambient Temperature with Airflow
Vout= 5.0V Vin = Vin(nom), Vout= 0.75V
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 3.3V
Derating Output Load versus Ambient Temperature with Airflow Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 5.0V Vin = Vin(nom), Vout= 0.75V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 23
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS16-12T and DOH16-12T
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 3.3V, Full Load Vin = Vin(nom), Vout= 5.0V, Full Load
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 3.3V
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load;
Vin = Vin(nom), Vout= 5.0V Cout = 2×150μF polymer capacitors
Vin = Vin(nom), Vout= 5.0V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 24
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for either DOS16-12T and DOH16-12T
Typical Input Start-Up and Output Rise Characteristic Using ON/OFF Voltage Start-Up and Vo Rise Characteristic
Vin = Vin(nom), Vout= 3.3V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
Output Short Circuit, Input Current
Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 25
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOS30-05T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.8V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 26
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOS30-05T
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 0.8V Vin = Vin(nom), Vout= 1.8V
Derating Output Load versus Ambient Temperature with Airflow Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 3.3V Vin = Vin(nom), Vout= 0.8V, Full Load
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 1.8V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 27
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOS30-05T
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 0.8V Vin = Vin(nom), Vout= 1.8V
Transient Response to Dynamic Load Change from Typical Input Start-Up and Output Rise Characteristic
100% to 50% to 100% of Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 28
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOH30-05T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.8V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 29
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOH30-05T
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 0.8V Vin = Vin(nom), Vout= 1.8V
Derating Output Load versus Ambient Temperature with Airflow Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 3.3V Vin = Vin(nom), Vout= 0.8V, Full Load
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 1.8V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 30
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOH30-05T
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 0.8V Vin = Vin(nom), Vout= 1.8V
Transient Response to Dynamic Load Change from Typical Input Start-Up and Output Rise Characteristic
100% to 50% to 100% of Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 31
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOS30-12T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.8V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 32
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOS30-12T
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 0.8V Vin = Vin(nom), Vout= 1.8V
Derating Output Load versus Ambient Temperature with Airflow Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 3.3V Vin = Vin(nom), Vout= 0.8V, Full Load
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 1.8V, Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 33
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOS30-12T
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 0.8V Vin = Vin(nom), Vout= 1.8V
Transient Response to Dynamic Load Change from Typical Input Start-Up and Output Rise Characteristic
100% to 50% to 100% of Full Load Vin = Vin(nom), Vout= 3.3V, Full Load
Vin = Vin(nom), Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 34
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOH30-12T
Efficiency versus Output Load Efficiency versus Output Load
Vout= 0.8V Vout= 1.2V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 1.5V Vout= 1.8V
Efficiency versus Output Load Efficiency versus Output Load
Vout= 2.5V Vout= 3.3V
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 35
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOH30-12T
Efficiency versus Output Load Derating Output Load versus Ambient Temperature with Airflow
Vout= 5.0V Vin = Vin(nom), Vout= 0.8V
Derating Output Load versus Ambient Temperature with Airflow Derating Output Load versus Ambient Temperature with Airflow
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 3.3V
Typical Output Ripple and Noise. Typical Output Ripple and Noise.
Vin = Vin(nom), Vout= 0.8V, Full Load Vin = Vin(nom), Vout= 1.8V, Full Load
DOS06/10/16/30
DOH06/10/16/30Application Note: Characteristic Curves
11/17/2016
P-DUKE TECHNOLOGY CO., LTD.
www.pduke.com 36
Characteristic Curves (Continued) All test conditions are at 25℃.The figures are identical for DOH30-12T
Typical Output Ripple and Noise. Transient Response to Dynamic Load Change from
Vin = Vin(nom), Vout= 3.3V, Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 0.8V
Transient Response to Dynamic Load Change from Transient Response to Dynamic Load Change from
100% to 50% to 100% of Full Load 100% to 50% to 100% of Full Load
Vin = Vin(nom), Vout= 1.8V Vin = Vin(nom), Vout= 3.3V
Typical Input Start-Up and Output Rise Characteristic
Vin = Vin(nom), Vout= 3.3V, Full Load