Abstract: Embodiments include devices and methods of their manufacture. A device embodiment includes a package housing, at least one electronic circuit (e.g., a sensor circuit), a first material, and a second material. The package housing includes a cavity that is partially defined by a cavity bottom surface, and the cavity bottom surface includes a mounting area and a non-mounting area. The at least one electronic circuit is attached to the cavity bottom surface over the mounting area. The first material has a relatively high, first modulus of elasticity, and covers the non-mounting area. The second material has a relatively low, second modulus of elasticity, and is disposed over the first material within the cavity.

Abstract: Embodiments of microelectronic packages and methods for fabricating microelectronic packages are provided. In one embodiment, the fabrication method includes printing a patterned die attach material onto the backside of a wafer including an array of non-singulated microelectronic die each having an interior keep-out area, such as a central keep-out area. The die attach material, such as a B-stage epoxy, is printed onto the wafer in a predetermined pattern such that the die attach material does not encroaching into the interior keep-out areas. The wafer is singulated to produce singulated microelectronic die each including a layer of die attach material. The singulated microelectronic die are then placed onto leadframes or other package substrates with the die attach material contacting the package substrates. The layer of die attach material is then fully cured to adhere an outer peripheral portion of the singulated microelectronic die to its package substrate.

Abstract: Embodiments of microelectronic packages and methods for fabricating microelectronic packages are provided. In one embodiment, the fabrication method includes printing a patterned die attach material onto the backside of a wafer including an array of non-singulated microelectronic die each having an interior keep-out area, such as a central keep-out area. The die attach material, such as a B-stage epoxy, is printed onto the wafer in a predetermined pattern such that the die attach material does not encroaching into the interior keep-out areas. The wafer is singulated to produce singulated microelectronic die each including a layer of die attach material. The singulated microelectronic die are then placed onto leadframes or other package substrates with the die attach material contacting the package substrates. The layer of die attach material is then fully cured to adhere an outer peripheral portion of the singulated microelectronic die to its package substrate.

Abstract: An integrated circuit package includes an electronic sensor protected by a lid structure. The electronic sensor includes a transducer placed on a backside surface of a lead frame assembly. The lid structure is placed over the transducer and is attached to the lead frame assembly on the backside surface. The lid can define an air cavity around the transducer, such that mold compound, gel, or other protective chemical material is not placed in contact with the transducer. The transducer is therefore protected without a chemical protectant, lowering the cost of the integrated circuit package and maintaining the sensitivity and performance of the transducer.

Abstract: Embodiments include devices and methods of their manufacture. A device embodiment includes a package housing, at least one electronic circuit (e.g., a sensor circuit), a first material, and a second material. The package housing includes a cavity that is partially defined by a cavity bottom surface, and the cavity bottom surface includes a mounting area and a non-mounting area. The at least one electronic circuit is attached to the cavity bottom surface over the mounting area. The first material has a relatively high, first modulus of elasticity, and covers the non-mounting area. The second material has a relatively low, second modulus of elasticity, and is disposed over the first material within the cavity.

Abstract: An integrated circuit package includes an electronic sensor protected by a lid structure. The electronic sensor includes a transducer placed on a backside surface of a lead frame assembly. The lid structure is placed over the transducer and is attached to the lead frame assembly on the backside surface. The lid can define an air cavity around the transducer, such that mold compound, gel, or other protective chemical material is not placed in contact with the transducer. The transducer is therefore protected without a chemical protectant, lowering the cost of the integrated circuit package and maintaining the sensitivity and performance of the transducer.