A fuel cell comprising a fuel pressure regulator apparatus on a fuel input line of the fuel cell, the apparatus comprising a first and a second valve connected in series by a fluid flow path defining an open volume between the two valves a pressure monitor device downstream of the second valve; and a controller connected to each valve for opening and closing each valve in a pulsed manner.

A patch-sized fluid delivery device may include a reusable portion and a disposable portion. The disposable portion may include components that come into contact with the fluid, while the reusable portion may include only components that do not come into contact with the fluid. Redundant systems, such as redundant controllers, power sources, motor actuators, and alarms, may be provided. Alternatively or additionally, certain components can be multi-functional, such a microphones and loudspeakers that may be used for both acoustic volume sensing and for other functions and a coil that may be used as both an inductive coupler for a battery recharger and an antenna for a wireless transceiver. Various types of network interfaces may be provided in order to allow for remote control and monitoring of the device.

A pressure type flowmeter includes a fluid resistance element provided in a flow path through which fluid flows, and in which a resistance flow path communicating with the flow path is formed, an upstream-side pressure sensor that detects upstream-side pressure of the fluid resistance element, and a downstream-side pressure sensor that detects downstream-side pressure of the fluid resistance element, in which the fluid resistance element is sandwiched and fixed by a pair of sandwiching components sealing components having a sheet-like shape are provided between the fluid resistance element and the sandwiching components and protrusions that partially press the sealing components are formed on at least one of the fluid resistance element and the sandwiching components.

A fluid distribution apparatus that can serve as a fluid metering device that is operable on a single platform by building automation systems. The building automation system may be controllable by a single software system or network accessible locally on site or remotely off site. The fluid distribution apparatus can operate independently or coupled with multiple like apparatuses for system operation. It is a high turndown, self-balancing system which allows for continuous commissioning with built-in fault diagnostic systems and that may be used as a supply system, exhaust system, or a combination thereof. The fluid distribution apparatus includes fluid metering devices that operate progressively based on unique actuation mechanisms and/or algorithms that allow for precise flow control and feedback to self-balance and commission the system.

A fill adapter system for an infusion pump assembly. The system includes a reusable fill adapter base, the base including a volume control mechanism to adjust an available fill volume of a reservoir of the infusion pump assembly and a pump mechanism configured to pump air into a fluid vial. The system also includes a vial adapter assembly including a first needle configured to penetrate a septum of the fluid vial for fluidly coupling the pump mechanism to the fluid vial and a second needle having a first end configured to penetrate the septum of the fluid vial and a second end configured to penetrate a septum of the reservoir of the infusion pump assembly to allow transfer of fluid from the fluid vial to the reservoir of the infusion pump assembly in response to air being pumped into the fluid vial and a needle carriage adapted to carry the first needle and the second needle, wherein the needle carriage slidably attached to the interior of the vial adapter assembly, wherein the needle carriage adapted to slide from a vial end of the vial adapter to a receptacle end of the vial adapter.

Fill stations and base stations are provided for personal pump systems. The fill stations may be opened and closed to accept a reservoir and to allow fluid to be introduced into the reservoir for use with personal pump systems. The fill stations may hold the reservoir at a tilt relative to an underlying surface and may discourage overfilling of the reservoir. The filling stations may also include viewing windows having fluid lines marked thereon for indicating volume of fluid within the reservoir.

Various embodiments include systems and apparatuses for divertless dosing of process gases, including divertless dosing of precursor gases in deposition systems. In one example, the disclosed subject matter is a divertless, pressure-based gas-dosing system that includes a process gas inlet coupled to an inlet valve, a flow controller coupled to be downstream of the inlet valve, and a line charge-volume (LCV) coupled to be downstream of the inlet valve and the flow controller. The LCV is to receive an initial single-dose of the process gas. A pressure sensor is coupled to the LCV to determine a pressure level within the LCV and an outlet valve is pneumatically coupled to be downstream of the LCV. The outlet valve is to be coupled pneumatically on a downstream side of the outlet valve to a process chamber. Other systems, apparatuses, and methods are disclosed.

Provided is a flow rate controller. The flow rate controller calculates a resistor flow rate that is a flow rate of a fluid flowing through a fluid resistor, on the basis of a first measured pressure measured by a first pressure sensor and a second measured pressure measured by a second pressure sensor; controls a second valve on the basis of a deviation of the resistor flow rate from the set flow rate; outputs a first set pressure that is a target of a pressure upstream of the fluid resistor, on the basis of the set flow rate and a second set pressure which is a target of a pressure downstream of the fluid resistor and to which a constant value is set; and controls the first valve on the basis of a deviation of the first measured pressure from the first set pressure.

A system is disclosed. The system includes a reservoir for containing a fluidic medium, the reservoir including a front surface, a resilient cylindrical flexure portion connected to the front surface, the resilient cylindrical flexure portion comprising an accordion-like structure that is able to expand and contract to change an interior volume within the resilient cylindrical flexure portion, a central passageway within the resilient cylindrical flexure, and a collection chamber connected to the central passageway. Also, a system including a reservoir, a plunger head located within the reservoir, a plunger arm connected to the plunger head, a driving shaft connected to the plunger arm, and a motor connected to the driving shaft, the motor controllable to move the drive shaft in a first motion and a second motion so as to move the advance plunger head and retract the plunger head within the reservoir.

A system for delivery of a volume of infusible fluid. The system includes a controller configured to calculate a trajectory for delivering infusible fluid, the trajectory comprising at least one volume of fluid, and determine a schedule for delivering the at least one volume of fluid according to the trajectory, wherein the schedule comprising an interval and a volume of infusible fluid for delivery. The system also includes a volume sensor assembly for determining the at least one volume of fluid delivered, wherein the controller recalculates the trajectory based on the volume of fluid delivered.