Abstract: A device (600) for performing at least part of an analytical process comprises a communicator (605) to facilitate communication with the device, and a data handler (610) to handle data of the analytical process and/or the device. In an embodiment, the device (600) is a consumable device and/or a microfluidic device. A method for performing at least part of an analytical process using a device comprises the steps of: (a) introducing a sample into the device; (b) handling data associated with the test using a data handler of the device; and (c) facilitating communications about the test using a communicator of the device. In another embodiment, the method is performed using a consumable device and/or a microfluidic device.

Abstract: A method of forming a stamped feature (P) on a substrate (S) includes: applying a plurality of stamping tool segments (32, 40a, 40b, 40c, 50, 60, 70, 80, 92) to at least one surface of the substrate. An arrangement (30, 90) for forming a stamped feature (P) on a substrate (S) includes a plurality of stamping tool segments (32, 40a, 40b, 40c, 50, 60, 70, 80, 92) that actuatable individually, in concert in groups of more than one, or combinations thereof.

Abstract: A process for manufacturing a device includes performing a plurality of non-bonding processes during at least one web-based manufacturing stage and during at least one sheet-based manufacturing stage. The processes may be performed by a plurality of modules. The modules may be independently controlled and/or monitored. The modules may be interchangeable. One or more modules may receive and/or pass material to another module. The devices that are manufactured may be a layered device, a smart card, a sensor, an actuator, an in vitro diagnostic device, a microfluidic device, or a laminar product. An apparatus for manufacturing device includes at least one web-based manufacturing component and at least one sheet-based manufacturing component. The at least one web-based manufacturing component and the at least one sheet-based manufacturing component are configured to perform a plurality of non-bonding processes.

Abstract: A process for manufacturing a device includes performing a plurality of non-bonding processes during at least one web-based manufacturing stage and during at least one sheet-based manufacturing stage. The processes may be performed by a plurality of modules. The modules may be independently controlled and/or monitored. The modules may be interchangeable. One or more modules may receive and/or pass material to another module. The devices that are manufactured may be a layered device, a smart card, a sensor, an actuator, an in vitro diagnostic device, a microfluidic device, or a laminar product. An apparatus for manufacturing device includes at least one web-based manufacturing component and at least one sheet-based manufacturing component. The at least one web-based manufacturing component and the at least one sheet-based manufacturing component are configured to perform a plurality of non-bonding processes.

Abstract: A method of forming a stamped feature (P) on a substrate (S) includes: applying a plurality of stamping tool segments (32, 40a, 40b, 40c, 50, 60, 70, 80, 92) to at least one surface of the substrate. An arrangement (30, 90) for forming a stamped feature (P) on a substrate (S) includes a plurality of stamping tool segments (32, 40a, 40b, 40c, 50, 60, 70, 80, 92) that actuatable individually, in concert in groups of more than one, or combinations thereof.

Abstract: A fluid handling structure includes: an actuation area (03, 08) to control fluid flow within the structure; and a plurality of actuation components (09, 11, 12, 13) within the actuation area (03, 08); wherein the actuation area (63, 68) is constructed and arranged to activate or control each of the plurality of actuation components (09, 11, 12, 13). A fluid handling structure comprising: a fluid channel (204); and a deformable material (202); wherein the fluid channel is bounded, at least in part, by the deformable material (202). A fluidic device comprising: at least one channel (403) defining a path for the travel of an electromagnetic wave. A method of performing a function with an instrument, the method comprising: associating an insert with the instrument, the insert comprising one or more of program code, data, or commands, which enable performance of the function.

Abstract: A method an apparatus for manufacturing a microfluidic device (10) is disclosed in which a laser is used to remove selected portions of one of the layers that make up the device. The portion of the layer may be removed before the layer is amalgamated with other layers making up the device, or the portion may be removed after the layers have been bonded together. The laser beam used to accomplish removal is a combination of at least two laser beams (3, 4), one of which (3) may be a continuous beam to form a melt of the portion to be removed, the other (4) being pulsed or modulated in some way to periodically induce shockwaves which remove the portion. The laser beams use at least one part (5, 8, 9) of the same alignment system.

Abstract: An apparatus for imaging an object comprises a plurality of shutter elements (601, 606, 614) and a sensor (603, 608, 612), each shutter element (601, 606, 614) being operable to control (602, 609, 613) passage of light from a separate spatial location on the object to be imaged, wherein the incident light from the shutters (601, 606, 614) simultaneously illuminates a common area on a sensor (603, 608, 612) surface and wherein the incident light from the different shutters (601, 606, 614) is still individually discernible due to shutter control (602, 609, 613).

Abstract: A device (600) for performing at least part of an analytical process comprises a communicator (605) to facilitate communication with the device, and a data handler (610) to handle data of the analytical process and/or the device. In an embodiment, the device (600) is a consumable device and/or a microfluidic device. A method for performing at least part of an analytical process using a device comprises the steps of: (a) introducing a sample into the device; (b) handling data associated with the test using a data handler of the device; and (c) facilitating communications about the test using a communicator of the device. In another embodiment, the method is performed using a consumable device and/or a microfluidic device.