Abstract: A mechanical level sensor detects when a fluid material added to a chamber has reached a predetermined level and therefore comprises a predetermined particular volume. Material is added to a chamber until it has reached the predetermined level. Once this level is reached, additional material overflows into a level sensor. The overflow material causes a wheel having a plurality of wells to rotate. This rotation is detected by a control circuit that signals the cessation of addition of material to the chamber and the dispensing of the material present in the chamber. The sensor is highly sensitive due to the almost frictionless rotation of the wheel about its axle.

Abstract: A wideband mixer includes a core mixer having input terminals and output terminals for, respectively, receiving differential input signals and providing amplified differential output signals. A steering module is coupled to the core mixer for receiving differential reference signals and providing bi-phase modulated amplified differential output signals. The core mixer is configured to provide a value of gain between the differential input signals and the differential output signals. A bandwidth peaking network is coupled to the core mixer and includes (a) a first coil and a first resistor connected in series and (b) a second coil and a second resistor connected in series. The first coil and resistor and the second coil and resistor, respectively, are coupled to the core mixer for receiving the amplified differential output signals. The bandwidth peaking network is configured to increase the frequency bandwidth of the core mixer.

Abstract: A candy vending machine that manufactures candy tablets from candy powder by a process that is visible to a customer. A feed tube is filled with candy powders of different flavors and colors from candy powder containers by the action of motorized augers. A tableting machine receives candy powder from the feed tube to compress the candy powder into candy tablets. One or more flavor selection buttons signal a computer system to activate the candy powder containers to transfer the candy powder to the feed tube, to deliver the candy powder from the feed tube to the tableting machine, and to deliver the candy tablets to a tablet chute. The tablet chute delivers the candy tablets to a candy tablet container provided to a customer. Sensing mechanisms determine the presence of the candy powder in the candy powder containers and in the feed tube.

Abstract: A frequency synthesizer includes a phase locked loop (PLL) for generating a desired frequency. The PLL includes two loop filters. A characterization circuit is included, which is configured to receive a digital word for characterizing the PLL and provide a pre-charge value for pre-charging one of the loop filters to generate the desired frequency. A successive approximation analog to digital (A/D) converter is coupled between the loop filters and the characterization circuit, for providing both (a) the digital word to the characterization circuit, and (b) the pre-charge value to the selected loop filter. The digital word includes n-bits ranging in values from a most significant bit (MSB) to a least significant bit (LSB), and the pre-charge value is formed by the n-bits. The successive approximation A/D converter includes a successive approximation register (SAR) for forming the digital word, and a digital to analog (D/A) converter for forming the pre-charge value.

Abstract: A low dropout (LDO) voltage regulator includes an output terminal for providing a regulated voltage output to a load, and a plurality of PFETs connected in parallel. Each PFET drains a level of current and the sum of the levels of current are provided as a current output at the output terminal. The LDO voltage regulator also includes a feedback network coupled to the output terminal for providing a voltage feedback signal, and an error amplifier coupled between the plurality of PFETs and the feedback network for sensing a differential voltage. The error amplifier includes an output voltage which is provided to the plurality of PFETs for adjusting the drain of current from each PFET. A summation of the drains of current from each PFET is provided as the current output to regulate the voltage output at the output terminal. Each PFET drains a current level of I0/n and the summation of the drains of current is the current output I0.

Abstract: A radiation hardened inverter includes first and second electrical paths between an input terminal and an output terminal. A first PFET is disposed in the first electrical path, and a bipolar junction transistor (BJT) is disposed in the second electrical path. The first PFET is configured to convert a low level signal at the input terminal to a high level signal at the output terminal, and the BJT is configured to convert a high level signal at the input terminal to a low level signal at the output terminal. The radiation hardened inverter includes a second PFET disposed in the second electrical path. The second PFET is configured to provide a path for bleeding excess current away from the BJT. The radiation hardened inverter also includes a current limiting PFET disposed in the second electrical path. The current limiting PFET is configured to limit current flowing into a base of the BJT. The radiation hardened inverter is free-of any NFETs.

Abstract: A transconductor and filter circuit is described. In one embodiment, a front end module within the transconductor and filter circuit converts a differential input voltage signal into a differential output current and supplies the output current at a differential output. A filter module coupled to the differential output of the front end module receives the differential output current, converts the output current into an intermediary differential voltage, and filters the differential voltage to obtain a filtered differential output voltage signal having low output impedance.

Abstract: A powder dispenser comprising a powder container having an opening in a lower end thereof, a powder receptacle having a flange, and a flow control assembly having pivotable flow control arms biased against each other, pivotable activation arms biased towards each other, and connecting members for connecting the flow control arms to the activation arms for concomitant movement, wherein the receptacle flange is operable to engage the activation arms to pivot the activation arms away from each other and thereby pivot the flow control arms away from each other so that powder is allowed to flow through the flow control assembly into the receptacle. The dispenser may further comprise an agitator that is operable to agitate the powder in the container when the flow control arms are pivoting towards or away from each other.

Abstract: A universal serial bus (USB) extension allows for the transmission of data at high speeds over a much greater distance than typical USB operating range. USB devices may be connected to host computers at distances of 750 meters or more. USB tokens from a host computer are spoofed.

Abstract: A wideband splitter includes a core amplifier for receiving a single pair of differential input signals and providing first and second pairs of differential output signals. The first pair of differential output signals and the second pair of differential outputs have substantially identical characteristics. A signal gain is implemented between the received single pair of differential input signals and the first and second pair of differential output signals. The signal gain is substantially constant across the frequency bandwidth of the core amplifier. A bandwidth peaking network is coupled to the core amplifier and includes (a) a first coil and a first resistor connected in series and (b) a second coil and a second resistor connected in series. The bandwidth peaking network is configured to increase the frequency bandwidth of the core amplifier.

Abstract: A wide band amplifier includes a core amplifier having input terminals and output terminals for, respectively, receiving differential input signals and providing amplified differential output signals. A bandwidth peaking network is coupled to the core amplifier and includes (a) a first coil and a first resistor connected in series and (b) a second coil and a second resistor connected in series. The first coil and resistor and the second coil and resistor, respectively, are coupled to the core amplifier for receiving the amplified differential output signals. The bandwidth peaking network is configured to increase the frequency bandwidth of the amplifier. The bandwidth peaking network includes (a) a first node formed between the first coil and resistor, (b) a second node formed between the second coil and resistor, and (c) a third resistor is connected between the first node and the second node. This resistor is free of current flow at low frequency operation of the amplifier.

Abstract: A transconductor and filter circuit is described. In one embodiment, a front end module within the transconductor and filter circuit converts a differential input voltage signal into a differential output current and supplies the output current at a differential output. A filter module coupled to the differential output of the front end module receives the differential output current, converts the output current into an intermediary differential voltage, and filters the differential voltage to obtain a filtered differential output voltage signal having low output impedance.

Abstract: A wideband combiner includes a core amplifier for receiving first and second pairs of differential input signals and providing a single pair of differential output signals. The pair of differential output signals are a combination of the first and second pair of differential input signals and a signal gain is implemented between the received first and second pairs of differential input signals and the single pair of differential output signals. The core amplifier is configured to provide a gain value between the first and second pairs of differential input signals and the single pair of differential output signals. The signal gain is substantially constant across the frequency bandwidth of the core amplifier. A bandwidth peaking network is coupled to the core amplifier and includes (a) a first coil and a first resistor connected in series and (b) a second coil and a second resistor connected in series.

Abstract: A wide band amplifier includes a core amplifier having input terminals and output terminals for, respectively, receiving differential input signals and providing amplified differential output signals. A bandwidth peaking network is coupled to the core amplifier and includes (a) a first coil and a first resistor connected in series and (b) a second coil and a second resistor connected in series. The first coil and resistor and the second coil and resistor, respectively, are coupled to the core amplifier for receiving the amplified differential output signals. The bandwidth peaking network is configured to increase the frequency bandwidth of the amplifier. The bandwidth peaking network includes (a) a first node formed between the first coil and resistor, (b) a second node formed between the second coil and resistor, and (c) a third resistor is connected between the first node and the second node. This resistor is free of current flow at low frequency operation of the amplifier.

Abstract: A wideband mixer includes a core mixer having input terminals and output terminals for, respectively, receiving differential input signals and providing amplified differential output signals. A steering module is coupled to the core mixer for receiving differential reference signals and providing bi-phase modulated amplified differential output signals. The core mixer is configured to provide a value of gain between the differential input signals and the differential output signals. A bandwidth peaking network is coupled to the core mixer and includes (a) a first coil and a first resistor connected in series and (b) a second coil and a second resistor connected in series. The first coil and resistor and the second coil and resistor, respectively, are coupled to the core mixer for receiving the amplified differential output signals. The bandwidth peaking network is configured to increase the frequency bandwidth of the core mixer.

Abstract: A wideband splitter includes a core amplifier for receiving a single pair of differential input signals and providing first and second pairs of differential output signals. The first pair of differential output signals and the second pair of differential outputs have substantially identical characteristics. A signal gain is implemented between the received single pair of differential input signals and the first and second pair of differential output signals. The signal gain is substantially constant across the frequency bandwidth of the core amplifier. A bandwidth peaking network is coupled to the core amplifier and includes (a) a first coil and a first resistor connected in series and (b) a second coil and a second resistor connected in series. The bandwidth peaking network is configured to increase the frequency bandwidth of the core amplifier.

Abstract: A directional canopy luminaire that can be easily and quickly adjusted to direct light from a canopy toward a particular target area without scattering light to unintended areas. The luminaire includes an outer housing having an aperture, a directional support rotatably mounted within the outer housing, an inner support pivotally affixed to the directional support, and a light supporting means. The light supporting means is typically configured to support a replaceable lamp that is electrically connectable to an electric power source. Light can be aimed in any desired direction through the aperture of the luminaire by pivoting into a position the directional support and the inner support.

Abstract: An externally adjustable directional canopy luminaire is disclosed that may be easily and quickly adjusted from the outside of its housing to direct light toward a particular target area. The luminaire includes a lamp shroud assembly including a door frame, a shroud and a lamp socket which is connectable to an electrical power source to power a replaceable lamp, an external adjustment member, and an internal mechanism movably connected to the external adjustment member through the shroud and indirectly connected to a portion of the lamp socket, wherein adjustment of the external adjustment member can alter the angle of direction of the lamp socket and thus the direction of light emitted from the replaceable lamp through the opening of the shroud.