2011
DOI: 10.2478/v10171-011-0016-5
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Drive optimisation of a pulsatile Total Artificial Heart

Abstract: Drive optimisation of a pulsatile Total Artificial HeartTotal Artificial Hearts (TAHs) are required for the therapy of terminal heart diseases as heart transplants are only a limited option due to the available number of donor hearts. For implantation TAHs have to meet constraints regarding its dimensions, weight, perfusions and electrical losses. An innovative linear driven TAH is presented, which meets all constraints except weight. Therefore the geometry of the linear drive is optimised to reduce its weight… Show more

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Cited by 3 publications
(5 citation statements)
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“…Additionally a new version of the drive unit with a reduced outer diameter of 82 mm (originally 90 mm) became available [13] and could immediately be integrated. Whereas the arrangement of the ducts within one chamber was fixed during the actual trial, there still was one degree of freedom between the two chambers, which is the rotation around the centerline.…”
Section: Methodsmentioning
confidence: 99%
“…Additionally a new version of the drive unit with a reduced outer diameter of 82 mm (originally 90 mm) became available [13] and could immediately be integrated. Whereas the arrangement of the ducts within one chamber was fixed during the actual trial, there still was one degree of freedom between the two chambers, which is the rotation around the centerline.…”
Section: Methodsmentioning
confidence: 99%
“…The calculations were performed across the stroke separately for each coil, when supplied by 1 A. The copper losses were calculated as described in Pohlmann et al (2010). Realistic boundary conditions are crucial as differences and tolerances for example in temperature, dimensions, current and force measurement reduce overall correlation of results.…”
Section: Simulation and Experimental Proceduresmentioning
confidence: 99%
“…In this way the flux coupling in the coils can be determined in every position (x) of the coil assembly. The flux density at each coil (B n ) can be put into relation of the flux density of all coils according to equation (2) and is referred to as the axial position dependent current factor (k I,n (x)): Equation 2 According to Pohlmann et al (2010) electric losses are minimized when the relation of the current in each coil follows equation (3), where (I sum ) represents the sum of the current in all coils and (I n ) represents the sum of the current in coil n: Equation 3 In a second step the required force profile is determined. Therefore, a pump chamber was connected to a physiologic hydraulic load and actuated by a servo‐hydraulic testing machine (Zwick HC5), which replaced the linear drive system and measured force and position of the pusher plate.…”
Section: Simulation and Experimental Proceduresmentioning
confidence: 99%
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