A rotor hub assembly for a centrifuge rotor includes a rotor hub including a head portion, an elongated shaft portion extending axially away from the head portion and a central bore extending through the head portion and the shaft portion. The head portion includes a plurality of balancing bores each configured to selectively receive at least one balancing weight for balancing the centrifuge rotor. A method for balancing a centrifuge rotor is also provided.

A rotor hub assembly for a centrifuge rotor includes a rotor hub including a head portion, an elongated shaft portion extending axially away from the head portion and a central bore extending through the head portion and the shaft portion. The head portion includes a plurality of balancing bores each configured to selectively receive at least one balancing weight for balancing the centrifuge rotor. A method for balancing a centrifuge rotor is also provided.

A method of testing a sensing device with a sensing mass includes accelerating the sensing device along a circular path about a central axis. The sensing mass of the sensing device may be movable relative to the central axis. The method includes determining a position of the sensing mass of the sensing device via a sensor and shifting the sensing device radially relative to the central axis based at least in part on the position of the sensing mass during acceleration.

A centrifugal separation type FFF device where a rotor can be rotated at a high speed safely so that particles of a smaller size in a sample liquid can be classified. A field flow fractionation device is provided with: a channel that is attached to the inner circumferential surface of the peripheral portion of a rotor and where a classification flow path is created; flow paths for feeding a sample liquid into and out from the classification flow path; and a rotational drive mechanism for rotating the rotational axis, wherein a channel installation portion is formed on one side of the peripheral portion, and a mass balancer portion for adjusting the mass distribution of the rotor is formed on the other side with the rotor base in between.

A centrifugal separation type FFF device where a rotor can be rotated at a high speed safely so that particles of a smaller size in a sample liquid can be classified. A field flow fractionation device is provided with: a channel that is attached to the inner circumferential surface of the peripheral portion of a rotor and where a classification flow path is created; flow paths for feeding a sample liquid into and out from the classification flow path; and a rotational drive mechanism for rotating the rotational axis, wherein a channel installation portion is formed on one side of the peripheral portion, and a mass balancer portion for adjusting the mass distribution of the rotor is formed on the other side with the rotor base in between.

A vibration isolation holding device includes a body portion and an abutment member. The abutment member is arranged between the body portion and a bearing housing, and has an abutment surface abutting on the bearing housing, when a cartridge is held. A biasing member is disposed between the abutment member and the body portion. An interval between the body portion and the abutment member is regulated by a first regulating portion to be shorter than a natural length of the biasing member.

Centrifuge counterbalances having an adjustable center of gravity are provided. Aspects of the centrifuge counterbalances include an elongated body having a distal end and a proximal end, a weight configured to be reversibly immobilized at a position along the longitudinal axis of the elongated body and a base configured to operably couple the centrifuge counterbalance to a centrifuge. Also provided are methods for balancing a centrifuge rotor when separating components of a liquid sample by centrifugation as well as systems suitable for practicing the subject methods.

Centrifuge counterbalances having an adjustable center of gravity are provided. Aspects of the centrifuge counterbalances include an elongated body having a distal end and a proximal end, a weight configured to be reversibly immobilized at a position along the longitudinal axis of the elongated body and a base configured to operably couple the centrifuge counterbalance to a centrifuge. Also provided are methods for balancing a centrifuge rotor when separating components of a liquid sample by centrifugation as well as systems suitable for practicing the subject methods.

In one nonlimiting example, an automated system is provided for separating one or more components in a biological fluid, wherein the system comprises: (a) a centrifuge comprising one or more bucket configured to receive a container to effect said separating of one or more components in a fluid sample; and (b) the container, wherein the container includes one or more shaped feature that is complementary to a shaped feature of the bucket.

In one nonlimiting example, an automated system is provided for separating one or more components in a biological fluid, wherein the system comprises: (a) a centrifuge comprising one or more bucket configured to receive a container to effect said separating of one or more components in a fluid sample; and (b) the container, wherein the container includes one or more shaped feature that is complementary to a shaped feature of the bucket.