Page 3 - MPD MD100xEI Datasheet
P. 3



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Typical Effi ciency vs Input, 5 VIN Models Typical Effi ciency vs Input, 24 VIN Models






















Typical Effi ciency vs Output, 5 VIN Models Typical Effi ciency vs Output, 24 VIN Models




















Effi ciency vs input is plotted with the unit at full load. Effi ciency vs output is plotted with the unit at nominal input.


Typical Connection, Single Output Models


VIN C1 L1
3.3 VDC 4.7 µF/50V 6.8 µH
5 VDC 4.7 µF/50V 6.8 µH
9 VDC 4.7 µF/50V 6.8 µH
12 VDC 4.7 µF/50V 6.8 µH
15 VDC 4.7 µF/50V 6.8 µH
24 VDC 4.7 µF/50V 6.8 µH

Typical Connection, Dual Output Models VOUT C2 C3
3.3 VDC 10 µF ---
5 VDC 10 µF ---
9 VDC 10 µF ---
12 VDC 2.2 µF ---
15 VDC 1.0 µF ---
24 VDC 1.0 µF ---
±3.3 VDC 4.7 µF 4.7 µF
±5 VDC 4.7 µF 4.7 µF
±9 VDC 1.0 µF 1.0 µF
±12 VDC 1.0 µF 1.0 µF
±15 VDC 0.47 µF 0.47 µF
These converters are specifi ed for operation without external components. However, in some applications the addition of input/output capacitors ±24 VDC 0.47 µF 0.47 µF
will enhance stability and reduce output ripple. For applications that require meeting EMC standards, the diagrams above illustrates a typical
connection of the MD100x-xxEI series. Suggested component values are given in the table at right.

Capacitors C2 and C3 are not required to meet specifi cations, but may be used if a lower level of output ripple is required.

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