Patents by Inventor Aaron CADAG
Aaron CADAG has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 11929259Abstract: The present disclosure is directed to leadless semiconductor packages with improved wettable flanks that encourage the formation of solder fillets when the leadless semiconductor package is mounted to a substrate. The solder fillets are consistently formed and are easily detectable by inspection systems, such as automated optical inspection (AOI) systems.Type: GrantFiled: June 21, 2021Date of Patent: March 12, 2024Assignee: STMICROELECTRONICS, INC.Inventors: Ian Harvey Arellano, Aaron Cadag, Ela Mia Cadag
-
Patent number: 11916090Abstract: A first side of a tapeless leadframe package is etched to form a ring shaped protrusion and a lead protrusion extending from a base layer. An integrated circuit die is mounted to tapeless leadframe package in flip chip orientation with a front side facing the first side. An electrical and mechanical attachment is made between a bonding pad of the integrated circuit die and the lead protrusion. A mechanical attachment is made between the front side of the integrated circuit die and the ring shaped protrusion. The integrated circuit die and the protrusions from the tapeless leadframe package are encapsulated within an encapsulating block. The second side of the tapeless leadframe package is then etched to remove portions of the base layer and define a lead for a leadframe from the lead protrusion and further define a die support for the leadframe from the ring shaped protrusion.Type: GrantFiled: June 9, 2021Date of Patent: February 27, 2024Assignee: STMicroelectronics, Inc.Inventors: Aaron Cadag, Rohn Kenneth Serapio, Ela Mia Cadag
-
Patent number: 11557548Abstract: A semiconductor package formed utilizing multiple etching steps includes a lead frame, a die, and a molding compound. The lead frame includes leads and a die pad. The leads and the die pad are formed from a first conductive material by the multiple etching steps. More specifically, the leads and the die pad of the lead frame are formed by at least three etching steps. The at least three etching steps including a first etching step, a second undercut etching step, and a third backside etching step. The second undercut etching step forming interlocking portions at an end of each lead. The end of the lead is encased in the molding compound. This encasement of the end of the lead with the interlocking portion allows the interlocking portion to mechanically interlock with the molding compound to avoid lead pull out. In addition, by utilizing at least three etching steps the leads can be formed to have a height that is greater than the die pad of the lead frame.Type: GrantFiled: December 29, 2020Date of Patent: January 17, 2023Assignee: STMicroelectronics, Inc.Inventors: Aaron Cadag, Lester Joseph Belalo, Ela Mia Cadag
-
Publication number: 20220285249Abstract: A MEMS pressure sensor packaged with a molding compound. The MEMS pressure sensor features a lead frame, a MEMS semiconductor die, a second semiconductor die, multiple pluralities of bonding wires, and a molding compound. The MEMS semiconductor die has an internal chamber, a sensing component, and apertures. The MEMS semiconductor die and the apertures are exposed to an ambient atmosphere. A method is desired to form a MEMS pressure sensor package that reduces defects caused by mold flashing and die cracking. Fabrication of the MEMS pressure sensor package comprises placing a lead frame on a lead frame tape; placing a MEMS semiconductor die adjacent to the lead frame and on the lead frame tape with the apertures facing the tape and being sealed thereby; attaching a second semiconductor die to the MEMS semiconductor die; attaching pluralities of bonding wires to form electrical connections between the MEMS semiconductor die, the second semiconductor die, and the lead frame; and forming a molding compound.Type: ApplicationFiled: May 24, 2022Publication date: September 8, 2022Applicant: STMICROELECTRONICS, INC.Inventors: Aaron CADAG, Frederick ARELLANO, Ernesto ANTILANO, JR.
-
Patent number: 11355423Abstract: A MEMS pressure sensor packaged with a molding compound. The MEMS pressure sensor features a lead frame, a MEMS semiconductor die, a second semiconductor die, multiple pluralities of bonding wires, and a molding compound. The MEMS semiconductor die has an internal chamber, a sensing component, and apertures. The MEMS semiconductor die and the apertures are exposed to an ambient atmosphere. A method is desired to form a MEMS pressure sensor package that reduces defects caused by mold flashing and die cracking. Fabrication of the MEMS pressure sensor package comprises placing a lead frame on a lead frame tape; placing a MEMS semiconductor die adjacent to the lead frame and on the lead frame tape with the apertures facing the tape and being sealed thereby; attaching a second semiconductor die to the MEMS semiconductor die; attaching pluralities of bonding wires to form electrical connections between the MEMS semiconductor die, the second semiconductor die, and the lead frame; and forming a molding compound.Type: GrantFiled: September 26, 2019Date of Patent: June 7, 2022Assignee: STMICROELECTRONICS, INC.Inventors: Aaron Cadag, Frederick Arellano, Ernesto Antilano, Jr.
-
Publication number: 20220005857Abstract: A first side of a tapeless leadframe package is etched to form a ring shaped protrusion and a lead protrusion extending from a base layer. An integrated circuit die is mounted to tapeless leadframe package in flip chip orientation with a front side facing the first side. An electrical and mechanical attachment is made between a bonding pad of the integrated circuit die and the lead protrusion. A mechanical attachment is made between the front side of the integrated circuit die and the ring shaped protrusion. The integrated circuit die and the protrusions from the tapeless leadframe package are encapsulated within an encapsulating block. The second side of the tapeless leadframe package is then etched to remove portions of the base layer and define a lead for a leadframe from the lead protrusion and further define a die support for the leadframe from the ring shaped protrusion.Type: ApplicationFiled: June 9, 2021Publication date: January 6, 2022Applicant: STMicroelectronics, Inc.Inventors: Aaron CADAG, Rohn Kenneth SERAPIO, Ela Mia CADAG
-
Publication number: 20210391226Abstract: One or more embodiments are directed to semiconductor device packages having a cap with integrated metal interconnects or conductive leads. One embodiment is directed to a semiconductor device package that includes a cap having a cover extending along a first direction and sidewalls extending from the cover along a second direction that is transverse to the first direction. A plurality of electrical leads are disposed on inner surfaces of the sidewalls and extend over lower surfaces of the sidewalls. A semiconductor die is attached to an inner surface of the cover of the cap, and the semiconductor die is electrically coupled to the plurality of electrical leads.Type: ApplicationFiled: June 14, 2021Publication date: December 16, 2021Applicant: STMICROELECTRONICS, INC.Inventors: Rennier RODRIGUEZ, John Alexander SORIANO, Aaron CADAG
-
Publication number: 20210313255Abstract: The present disclosure is directed to leadless semiconductor packages with improved wettable flanks that encourage the formation of solder fillets when the leadless semiconductor package is mounted to a substrate. The solder fillets are consistently formed and are easily detectable by inspection systems, such as automated optical inspection (AOI) systems.Type: ApplicationFiled: June 21, 2021Publication date: October 7, 2021Applicant: STMICROELECTRONICS, INC.Inventors: Ian Harvey ARELLANO, Aaron CADAG, Ela Mia CADAG
-
Patent number: 11069601Abstract: The present disclosure is directed to leadless semiconductor packages with improved wettable flanks that encourage the formation of solder fillets when the leadless semiconductor package is mounted to a substrate. The solder fillets are consistently formed and are easily detectable by inspection systems, such as automated optical inspection (AOI) systems.Type: GrantFiled: February 1, 2019Date of Patent: July 20, 2021Assignee: STMicroelectronics, Inc.Inventors: Ian Harvey Arellano, Aaron Cadag, Ela Mia Cadag
-
Publication number: 20210118818Abstract: A semiconductor package formed utilizing multiple etching steps includes a lead frame, a die, and a molding compound. The lead frame includes leads and a die pad. The leads and the die pad are formed from a first conductive material by the multiple etching steps. More specifically, the leads and the die pad of the lead frame are formed by at least three etching steps. The at least three etching steps including a first etching step, a second undercut etching step, and a third backside etching step. The second undercut etching step forming interlocking portions at an end of each lead. The end of the lead is encased in the molding compound. This encasement of the end of the lead with the interlocking portion allows the interlocking portion to mechanically interlock with the molding compound to avoid lead pull out. In addition, by utilizing at least three etching steps the leads can be formed to have a height that is greater than the die pad of the lead frame.Type: ApplicationFiled: December 29, 2020Publication date: April 22, 2021Inventors: Aaron Cadag, Lester Joseph Belalo, Ela Mia Cadag
-
Patent number: 10910295Abstract: The present disclosure is directed to a leadframe package having solder wettable sidewalls that is formed using a pre-molded leadframe and methods of manufacturing the same. A metal plated leadframe with a plurality of recesses and a plurality of apertures is placed into a top and bottom mold tool. A molding compound is then formed in the plurality of recesses and apertures in the leadframe to form a pre-molded leadframe. A plurality of die and wires are coupled to the pre-molded leadframe and the resulting combination is covered in an encapsulant. Alternatively, a bare leadframe can be processed and the metal layer can be applied after encapsulation. A saw or other cutting means is used for singulation to form leadframe packages. Each resulting leadframe package has a solder wettable sidewall for improving the strength of solder joints between the package and a circuit board.Type: GrantFiled: December 12, 2019Date of Patent: February 2, 2021Assignee: STMICROELECTRONICS, INC.Inventors: Aaron Cadag, Ernesto Antilano, Jr., Ela Mia Cadag
-
Patent number: 10903172Abstract: A semiconductor package formed utilizing multiple etching steps includes a lead frame, a die, and a molding compound. The lead frame includes leads and a die pad. The leads and the die pad are formed from a first conductive material by the multiple etching steps. More specifically, the leads and the die pad of the lead frame are formed by at least three etching steps. The at least three etching steps including a first etching step, a second undercut etching step, and a third backside etching step. The second undercut etching step forming interlocking portions at an end of each lead. The end of the lead is encased in the molding compound. This encasement of the end of the lead with the interlocking portion allows the interlocking portion to mechanically interlock with the molding compound to avoid lead pull out. In addition, by utilizing at least three etching steps the leads can be formed to have a height that is greater than the die pad of the lead frame.Type: GrantFiled: November 27, 2019Date of Patent: January 26, 2021Assignee: STMICROELECTRONICS, INC.Inventors: Aaron Cadag, Lester Joseph Belalo, Ela Mia Cadag
-
Publication number: 20200343168Abstract: Generally described, one or more embodiments are directed to semiconductor packages comprising a plurality of leads and methods of forming same. The plurality of leads include active leads that are electrically coupled to bond pads of a semiconductor die and thereby coupled to active components of the semiconductor die, and inactive leads that are not electrically coupled to bond pads of the semiconductor die. The active leads have surfaces that are exposed at a lower surface of the semiconductor package and forms lands, while the inactive leads are not exposed at the lower surface of the package.Type: ApplicationFiled: April 14, 2020Publication date: October 29, 2020Inventors: Ela Mia CADAG, Frederick Ray GOMEZ, Aaron CADAG
-
Publication number: 20200135623Abstract: The present disclosure is directed to a leadframe package having solder wettable sidewalls that is formed using a pre-molded leadframe and methods of manufacturing the same. A metal plated leadframe with a plurality of recesses and a plurality of apertures is placed into a top and bottom mold tool. A molding compound is then formed in the plurality of recesses and apertures in the leadframe to form a pre-molded leadframe. A plurality of die and wires are coupled to the pre-molded leadframe and the resulting combination is covered in an encapsulant. Alternatively, a bare leadframe can be processed and the metal layer can be applied after encapsulation. A saw or other cutting means is used for singulation to form leadframe packages. Each resulting leadframe package has a solder wettable sidewall for improving the strength of solder joints between the package and a circuit board.Type: ApplicationFiled: December 12, 2019Publication date: April 30, 2020Inventors: Aaron CADAG, Ernesto ANTILANO, JR., Ela Mia CADAG
-
Publication number: 20200118944Abstract: A semiconductor package formed utilizing multiple etching steps includes a lead frame, a die, and a molding compound. The lead frame includes leads and a die pad. The leads and the die pad are formed from a first conductive material by the multiple etching steps. More specifically, the leads and the die pad of the lead frame are formed by at least three etching steps. The at least three etching steps including a first etching step, a second undercut etching step, and a third backside etching step. The second undercut etching step forming interlocking portions at an end of each lead. The end of the lead is encased in the molding compound. This encasement of the end of the lead with the interlocking portion allows the interlocking portion to mechanically interlock with the molding compound to avoid lead pull out. In addition, by utilizing at least three etching steps the leads can be formed to have a height that is greater than the die pad of the lead frame.Type: ApplicationFiled: November 27, 2019Publication date: April 16, 2020Inventors: Aaron Cadag, Lester Joseph Belalo, Ela Mia Cadag
-
Patent number: 10541196Abstract: The present disclosure is directed to a leadframe package having solder wettable sidewalls that is formed using a pre-molded leadframe and methods of manufacturing the same. A metal plated leadframe with a plurality of recesses and a plurality of apertures is placed into a top and bottom mold tool. A molding compound is then formed in the plurality of recesses and apertures in the leadframe to form a pre-molded leadframe. A plurality of die and wires are coupled to the pre-molded leadframe and the resulting combination is covered in an encapsulant. Alternatively, a bare leadframe can be processed and the metal layer can be applied after encapsulation. A saw or other cutting means is used for singulation to form leadframe packages. Each resulting leadframe package has a solder wettable sidewall for improving the strength of solder joints between the package and a circuit board.Type: GrantFiled: August 21, 2018Date of Patent: January 21, 2020Assignee: STMicroelectronics, Inc.Inventors: Aaron Cadag, Ernesto Antilano, Jr., Ela Mia Cadag
-
Publication number: 20200020616Abstract: A MEMS pressure sensor packaged with a molding compound. The MEMS pressure sensor features a lead frame, a MEMS semiconductor die, a second semiconductor die, multiple pluralities of bonding wires, and a molding compound. The MEMS semiconductor die has an internal chamber, a sensing component, and apertures. The MEMS semiconductor die and the apertures are exposed to an ambient atmosphere. A method is desired to form a MEMS pressure sensor package that reduces defects caused by mold flashing and die cracking. Fabrication of the MEMS pressure sensor package comprises placing a lead frame on a lead frame tape; placing a MEMS semiconductor die adjacent to the lead frame and on the lead frame tape with the apertures facing the tape and being sealed thereby; attaching a second semiconductor die to the MEMS semiconductor die; attaching pluralities of bonding wires to form electrical connections between the MEMS semiconductor die, the second semiconductor die, and the lead frame; and forming a molding compound.Type: ApplicationFiled: September 26, 2019Publication date: January 16, 2020Inventors: Aaron CADAG, Frederick ARELLANO, Ernesto ANTILANO, JR.
-
Patent number: 10529672Abstract: A semiconductor package formed utilizing multiple etching steps includes a lead frame, a die, and a molding compound. The lead frame includes leads and a die pad. The leads and the die pad are formed from a first conductive material by the multiple etching steps. More specifically, the leads and the die pad of the lead frame are formed by at least three etching steps. The at least three etching steps including a first etching step, a second undercut etching step, and a third backside etching step. The second undercut etching step forming interlocking portions at an end of each lead. The end of the lead is encased in the molding compound. This encasement of the end of the lead with the interlocking portion allows the interlocking portion to mechanically interlock with the molding compound to avoid lead pull out. In addition, by utilizing at least three etching steps the leads can be formed to have a height that is greater than the die pad of the lead frame.Type: GrantFiled: August 31, 2017Date of Patent: January 7, 2020Assignee: STMICROELECTRONICS, INC.Inventors: Aaron Cadag, Lester Joseph Belalo, Ela Mia Cadag
-
Patent number: 10483191Abstract: A MEMS pressure sensor packaged with a molding compound. The MEMS pressure sensor features a lead frame, a MEMS semiconductor die, a second semiconductor die, multiple pluralities of bonding wires, and a molding compound. The MEMS semiconductor die has an internal chamber, a sensing component, and apertures. The MEMS semiconductor die and the apertures are exposed to an ambient atmosphere. A method is desired to form a MEMS pressure sensor package that reduces defects caused by mold flashing and die cracking. Fabrication of the MEMS pressure sensor package comprises placing a lead frame on a lead frame tape; placing a MEMS semiconductor die adjacent to the lead frame and on the lead frame tape with the apertures facing the tape and being sealed thereby; attaching a second semiconductor die to the MEMS semiconductor die; attaching pluralities of bonding wires to form electrical connections between the MEMS semiconductor die, the second semiconductor die, and the lead frame; and forming a molding compound.Type: GrantFiled: July 15, 2016Date of Patent: November 19, 2019Assignee: STMICROELECTRONICS, INC.Inventors: Aaron Cadag, Frederick Arellano, Ernesto Antilano, Jr.
-
Patent number: 10461019Abstract: A semiconductor package formed utilizing a removable backside protective layer includes a leadframe, a die pad, leads and a molding compound around them. The first surface of the die pad and leads are exposed to an external environment by the plurality of recesses. The recesses are formed by coupling a removable backside protective layer to the leadframe before applying the molding compound. After the molding compound is applied and cured, the backside protective layer is removed to expose the first surface of the die pad and the first surfaces of the leads so the semiconductor package may be mounted within an electronic device. The removable backside protective layer protects the die pad and the leads from mold flashing and residue when forming the semiconductor package during the fabrication process.Type: GrantFiled: September 20, 2018Date of Patent: October 29, 2019Assignee: STMICROELECTRONICS, INC.Inventors: Aaron Cadag, Ian Harvey Arellano, Ela Mia Cadag