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PTH12010W TYPICAL CHARACTERISTICS (V

= 12 V)

(1) (2)

− Load Current − A

OUT

= 5 V

− Power Dissipation − W

OUT

= 3.3 V

OUT

= 2.5 V

OUT

= 2 V

OUT

= 1.8 V

OUT

= 1.5 V

OUT

= 1.2 V

2 4 6 8 120 10

100

2 4 6 8 120

− Load Current − A

Output Ripple − mV

OUT

= 5 V

OUT

= 3.3 V

OUT

= 2.5 V

OUT

= 2 V

OUT

= 1.8 V

OUT

= 1.5 V

OUT

= 1.2 V

100

Efficiency − %

− Output Current − A

0 2 4 6 8 10

= 5 V

= 3.3 V

= 2.5 V

= 2 V

= 1.8 V

= 1.5 V

= 1.2 V

400 LFM

200 LFM

Nat Conv

− Ambient Temperature −

100 LFM

= 3.3 V

− Output Current − A

0 2 4 6 8 1210

400 LFM

200 LFM

Nat Conv

− Ambient Temperature −

100 LFM

= ≤1.8 V

− Output Current − A

0 2 4 6 8 1210

400 LFM

200 LFM

100 LFM

Nat Conv

= 5 V

− Output Current − A

0 2 4 6 8 12

− Ambient Temperature −

PTH12010W , PTH12010L

SLTS205G – JUNE 2003 – REVISED FEBRUARY 2007

EFFICIENCY OUTPUT RIPPLE POWER DISSIPATION

vs vs vs

LOAD CURRENT LOAD CURRENT LOAD CURRENT

Figure 1. Figure 2. Figure 3.

TEMPERATURE DERATING TEMPERATURE DERATING TEMPERATURE DERATING

vs vs vs

OUTPUT CURRENT OUTPUT CURRENT OUTPUT CURRENT

Figure 4. Figure 5. Figure 6.

(1) The electrical characteristic data has been developed from actual products tested at 25 ° C. This data is considered typical for the

converter. Applies to Figure 1 , Figure 2 , and Figure 3 .

(2) The temperature derating curves represent the conditions at which internal components are at or below the manufacturer's maximum

operating temperatures. Derating limits apply to modules soldered directly to a 4 inch × 4 inch double-sided PCB with 2 oz. copper. For

surface mount packages (AS and AZ suffix), multiple vias (plated through holes) are required to add thermal paths around the power

pins. Please refer to the mechanical specification for more information. Applies to Figure 4 , Figure 5 , and Figure 6 .

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