Abstract: Embodiments disclosed herein include communication dies for mm-wave and/or sub-terahertz wavelength communications. In an embodiment, a communications die comprises a substrate with a first face and a second face. In an embodiment, edge surfaces connect the first face to the second face. In an embodiment, a circuitry element is on the first face, and an antenna on at least one of the edge surfaces.

Abstract: Integrated capacitors are described. In an example, an integrated capacitor structure includes alternating first metal lines and second metal lines in a dielectric layer of a metallization layer in a stack of metallization layers, the first metal lines coupled together, and the second metal lines coupled together. A metal plate is over or beneath the alternating first metal lines and second metal lines. A dielectric liner layer is between the alternating first metal lines and second metal lines and the metal plate.

Abstract: Integrated capacitors are described. In an example, an integrated capacitor structure includes alternating first metal lines and second metal lines in a dielectric layer of a metallization layer in a stack of metallization layers, the first metal lines coupled together, and the second metal lines coupled together. A metal plate is over or beneath the alternating first metal lines and second metal lines. The metal plate is coupled to the first metal lines or the second metal lines by vias.

Abstract: The techniques described herein relate to a Radio Frequency (RF) communication module for a hand-held mobile electronic device. The Radio Frequency (RF) communication module includes a circuit board and a plurality of antennas disposed on a top side and bottom side of the circuit board. The plurality of antennas comprise a first subset of antennas comprising end-fire antennas and a second subset of antennas comprising broadside antennas. The first subset of antennas and the second subset of antennas also have a bandwidth of approximately 40 percent. The Radio Frequency (RF) communication module also includes a shielded area comprising circuitry coupled to the circuit board for controlling the antennas.

Abstract: Techniques for fabricating end-fire antennas are described. An example of an electronic device with an end-fire antenna includes a housing of the electronic device, and a circuit board comprising electronic components of the mobile electronic device. The circuit board is parallel with the major plane of the housing. The electronic device includes an antenna coupled to the circuit board. At least a portion of the antenna is oriented perpendicular to the first circuit board to generate a radiation pattern with an amplitude that is greater in the end-fire direction compared to the broadside direction.

Abstract: The techniques described herein relate to a Radio Frequency (RF) communication module for a hand-held mobile electronic device. The Radio Frequency (RF) communication module includes a circuit board and a plurality of antennas disposed on a top side and bottom side of the circuit board. The plurality of antennas comprise a first subset of antennas comprising end-fire antennas and a second subset of antennas comprising broadside antennas. The first subset of antennas and the second subset of antennas also have a bandwidth of approximately 40 percent. The Radio Frequency (RF) communication module also includes a shielded area comprising circuitry coupled to the circuit board for controlling the antennas.

Abstract: The techniques described herein relate to a Radio Frequency (RF) communication module for a hand-held mobile electronic device. The Radio Frequency (RF) communication module includes a circuit board and a plurality of antennas disposed on a top side and bottom side of the circuit board. The plurality of antennas comprise a first subset of antennas comprising end-fire antennas and a second subset of antennas comprising broadside antennas. The first subset of antennas and the second subset of antennas also have a bandwidth of approximately 40 percent. The Radio Frequency (RF) communication module also includes a shielded area comprising circuitry coupled to the circuit board for controlling the antennas.

Abstract: An RF transceiver device, for use in an RF system, includes a chip package comprising one or more circuit components, a signal cable, and an antenna block. The signal cable is configured to carry signals sent to the chip package or received from the chip package. The signal cable has a first surface and a second surface. The chip package is directly coupled to the first surface of the signal cable. The antenna block comprises one or more antennas and is directly coupled to the second surface of the signal cable. By directly coupling the chip package and antenna block to the signal cable, bulky connectors are no longer needed thus reducing the total footprint of the transceiver device and increasing signal fidelity. The arrangement may be integrated with, for example, a PCB or a communication system.

Abstract: Techniques for fabricating end-fire antennas are described. An example of an electronic device with an end-fire antenna includes a housing of the electronic device, and a circuit board comprising electronic components of the mobile electronic device. The circuit board is parallel with the major plane of the housing. The electronic device includes an antenna coupled to the circuit board. At least a portion of the antenna is oriented perpendicular to the first circuit board to generate a radiation pattern with an amplitude that is greater in the end-fire direction compared to the broadside direction.

Abstract: The techniques described herein relate to a Radio Frequency (RF) communication module for a hand-held mobile electronic device. The Radio Frequency (RF) communication module includes a circuit board and a plurality of antennas disposed on a top side and bottom side of the circuit board. The plurality of antennas comprise a first subset of antennas comprising end-fire antennas and a second subset of antennas comprising broadside antennas. The first subset of antennas and the second subset of antennas also have a bandwidth of approximately 40 percent. The Radio Frequency (RF) communication module also includes a shielded area comprising circuitry coupled to the circuit board for controlling the antennas.

Abstract: A metal oxide semiconductor radio frequency transmit/receive switch may enable lower costs and smaller size. The switch uses an inductor and a capacitor circuit to isolate the power amplifier from the low noise amplifier. Metal oxide semiconductor switches are utilized to switch between transmit and receive modes.