B384F120T30_10 VICOR [Vicor Corporation], B384F120T30_10 Datasheet - Page 11

B384F120T30_10

Manufacturer Part Number

B384F120T30_10

Description

Bus Converter

Manufacturer

VICOR [Vicor Corporation]

Datasheet

1.B384F120T30_10.pdf (12 pages)

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Parallel Operation

The BCM will inherently current share when operated in an array. Arrays

may be used for higher power or redundancy in an application.

Current sharing accuracy is maximized when the source and load

impedance presented to each BCM within an array are equal. The

recommended method to achieve matched impedances is to dedicate

common copper planes within the PCB to deliver and return the current

to the array, rather than rely upon traces of varying lengths. In typical

applications the current being delivered to the load is larger than that

sourced from the input, allowing traces to be utilized on the input side if

necessary. The use of dedicated power planes is, however, preferable.

The BCM power train and control architecture allow bi-directional power

transfer, including reverse power processing from the BCM output to its

input. Reverse power transfer is enabled if the BCM input is within its

operating range and the BCM is otherwise enabled. The BCM’s ability to

process power in reverse improves the BCM transient response to an

output load dump.

Input Impedance Recommendations

To take full advantage of the BCM capabilities, the impedance presented

to its input terminals must be low from DC to approximately 5 MHz. The

source should exhibit low inductance (less than 100 nH) and should have

a critically damped response. If the interconnect inductance exceeds 100

nH, the BCM input pins should be bypassed with an RC damper (e.g.,

2.2 µF in series with 0.3 ohm) to retain low source impedance and stable

operations. Given the wide bandwidth of the BCM, the source response

is generally the limiting factor in the overall system response.

Anomalies in the response of the source will appear at the output of the

BCM multiplied by its K factor. The DC resistance of the source should be

kept as low as possible to minimize voltage deviations. This is especially

important if the BCM is operated near low or high line as the over/under

voltage detection circuitry could be activated.

Input Fuse Recommendations

V•I Chips are not internally fused in order to provide flexibility in

configuring power systems. However, input line fusing of V•I Chips must

always be incorporated within the power system. A fast acting fuse

should be placed in series with the +In port.

BCM Applications

vicorpower.com

800-735-6200

Application Notes

For BCM and V•I Chip application notes on soldering, thermal

management, board layout, and system design click on the link below:

http://www.vicorpower.com/technical_library/application_information/chips/

V•I Chip Bus Converter

B384F120T30

Page 11 of 12

Rev. 2.4

B384F120T30_10 VICOR [Vicor Corporation], B384F120T30_10 Datasheet - Page 11

B384F120T30_10

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