Datasheet VERSA-PAC (Eaton) - 7

制造商Eaton
描述Inductors and Transformers (Surface Mount)
页数 / 页9 / 7 — How to pin-configure VERSA-PAC®. VERSA-PAC. PCM. INDUCTOR EXAMPLE. FOR …
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How to pin-configure VERSA-PAC®. VERSA-PAC. PCM. INDUCTOR EXAMPLE. FOR SIZES VP3, VP4 AND VP5. PIN CONFIGURATIONS

How to pin-configure VERSA-PAC® VERSA-PAC PCM INDUCTOR EXAMPLE FOR SIZES VP3, VP4 AND VP5 PIN CONFIGURATIONS

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VP Technical Data 4301 VERSA-PAC® Inductors and Transformers (Surface Mount) Effective August 2017
How to pin-configure VERSA-PAC®
Each
VERSA-PAC
can be configured in a variety of ways by simply connecting pins together on the Printed Circuit Board (PCB). As shown below, the connections on the PCB are equal to the pin configuration statement shown at the bottom of the schematic symbol. Connecting a number of windings in parallel will increase the current carrying capability, while connecting in series will multiply the inductance. Each
VERSA-PAC
part can be configured in at least 6 combinations for inductor use or configured in at least 15 turns ratios for transformer applications. The
VERSA-PAC
allows for at least 500 magnetic configurations. The
PCM
configurations can either be created by the designer or simply chosen from the existing
PCM
diagrams. The following inductor example shows 6 windings in series, which result in an inductance of 36 times the base inductance and 1 times the base current.
INDUCTOR EXAMPLE FOR SIZES VP3, VP4 AND VP5
L = 36 x L TOTAL BASE Component View = 36 times the base Inductance from Data Table. 1 4 1 12 1 12 9 2 5 11 8 3 6 7 10 7 6 7
PIN CONFIGURATIONS
(2,12)(3,11)(4,10)(5,9)(6,8) Each VERSA-PAC may be used in at least 15 transformer applications. More than 375 transformer combinations may be achieved using the available VERSA-PAC parts.
TRANSFORMER EXAMPLE FOR SIZES VP3, VP4 AND VP5 1:5
1 4 1 12 L = 1 x L PRIMARY BASE 12 9 1 2 2 5 I = 1 x I I = 1 x I 11 8 PRI BASE SEC BASE 3 6 12 7 10 7 6 7
PIN CONFIGURATIONS
(3,11)(4,10)(5,9)(6,8) The PCM configurations may be selected from the examples above or created by the designer. The printed circuit board layout in each example illustrates the connections to obtain the desired inductance or turns ratio. The examples may be used by the PCB designer to configure
VERSA-PAC
as desired. To assist the designer,
VERSA-PAC
phasing, coupling and thermal issues have been considered in each of the PCM configurations illustrated. Additionally, the inductance and current ratings, as a function of the respective base values are shown in each PCM example. It is important to carefully select the proper
VERSA-PAC
part in order to minimize the component size without exceeding the RMS current capability or saturating the core. The Product specification table indicates maximum ratings. www.eaton.com/electronics 7