Abstract: A product on demand nozzle assembly includes a chamber at least partially defined by an external wall and an array of vertically spaced nozzles. Each nozzle has an air inlet, an air and entrained product outlet extending from the external wall, and an entrainment zone between the air inlet and the air and entrained product outlet to receive a product therein to be distributed.

Abstract: A system and method for the fabrication of high reliability capacitors (1011), inductors (1012), and multi-layer interconnects (1013) (including resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).

Abstract: A system and method for the fabrication of high reliability high performance Lange couplers (optionally including capacitors (1011), inductors (1012), multi-layer interconnects (1013), and resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed Lange coupler method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).

Abstract: A system and method for the fabrication of high reliability capacitors (1011), inductors (1012), and multi-layer interconnects (1013) (including resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).

Abstract: A system and method for the fabrication of high reliability capacitors (1011), inductors (1012), and multi-layer interconnects (1013) (including resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).

Abstract: A system and method for the fabrication of high reliability capacitors (1011), inductors (1012), and multi-layer interconnects (1013) (including resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).

Abstract: A system and method for the fabrication of high reliability capacitors (1011), inductors (1012), and multi-layer interconnects (1013) (including resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).

Abstract: A system and method for the fabrication of high reliability capacitors (1011), inductors (1012), and multi-layer interconnects (1013) (including resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).

Abstract: A system and method for the fabrication of high reliability capacitors (1011), inductors (1012), and multi-layer interconnects (1013) (including resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).

Abstract: A system and method for the fabrication of high reliability capacitors (1011), inductors (1012), and multi-layer interconnects (1013) (including resistors (1014)) on various thin film hybrid substrate surfaces (0501) is disclosed. The disclosed method first employs a thin metal layer (0502) deposited and patterned on the substrate (0501). This thin patterned layer (0502) is used to provide both lower electrodes for capacitor structures (0603) and interconnects (0604) between upper electrode components. Next, a dielectric layer (0705) is deposited over the thin patterned layer (0502) and the dielectric layer (0705) is patterned to open contact holes (0806) to the thin patterned layer. The upper electrode layers (0907, 0908, 1009, 1010) are then deposited and patterned on top of the dielectric (0705).