| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 326113000 | Pass transistor logic or transmission gate logic | 8 |
| 20080303553 | METHOD AND APPARATUS FOR A CONFIGURABLE LOW POWER HIGH FAN-IN MULTIPLEXER - A configurable, low power high fan-in multiplexer (MUX) is disclosed. The MUX circuit includes multiple current control elements, which each include multiple inverters coupled to a transmission gate. Each current control element receives a data signal and a select signal that corresponds to the data signal. If a select signal exceeds a threshold value (e.g., a logical “1”), the select signal deactivates a pull-up transistor (e.g., a p-type field effect transistor), and the transmission gate enables the corresponding data signal to provide input to a logic gate (e.g., a NAND gate) coupled to the output of the MUX. If the select signal does not exceed the threshold value, the select signal activates the pull-up transistor, and the transmission gate prevents the corresponding data signal from providing input to the logic gate. | 12-11-2008 |
| 20080303554 | STRUCTURE FOR A CONFIGURABLE LOW POWER HIGH FAN-IN MULTIPLEXER - A configurable, low power high fan-in multiplexer (MUX) and design structure thereof are disclosed. The MUX circuit includes multiple current control elements, which each include multiple inverters coupled to a transmission gate. Each current control element receives a data signal and a select signal that corresponds to the data signal. If a select signal exceeds a threshold value (e.g., a logical “1”), the select signal deactivates a pull-up transistor (e.g., a p-type field effect transistor), and the transmission gate enables the corresponding data signal to provide input to a logic gate (e.g., a NAND gate) coupled to the output of the MUX. If the select signal does not exceed the threshold value, the select signal activates the pull-up transistor, and the transmission gate prevents the corresponding data signal from providing input to the logic gate. | 12-11-2008 |
| 20090072863 | Transmission Gate Multiplexer - A technique for operating a multiplexer includes selecting, from multiple transmission gate groups, a transmission gate group. A transmission gate is selected from the selected transmission gate group. Finally, a data signal associated with the selected transmission gate is provided at an output of the multiplexer. | 03-19-2009 |
| 20090096486 | Structure for Transmission Gate Multiplexer - A technique and design structure for operating a multiplexer includes selecting, from multiple transmission gate groups, a transmission gate group. A transmission gate is selected from the selected transmission gate group. Finally, a data signal associated with the selected transmission gate is provided at an output of the multiplexer. | 04-16-2009 |
| 20090219053 | POWER EFFICIENT MULTIPLEXER - A power efficient multiplexer. In accordance with a first embodiment of the present invention, a power efficient multiplexer comprises a transmission gate structure for selectively passing one of a plurality of input signals and a stacked inverter circuit for inverting the one of a plurality of input signals. Both the stacked inverter and the transmission gate provide beneficial reductions in static power consumption in comparison to conventional multiplexer designs. | 09-03-2009 |
| 20110133781 | LOW POWER COMPLEMENTARY LOGIC LATCH AND RF DIVIDER - A quadrature output high-frequency RF divide-by-two circuit includes a pair of differential complementary logic latches. The latches are interconnected to form a toggle flip-flop. Each latch includes a tracking cell and a locking cell. In a first embodiment, the locking cell includes two complementary logic inverters and two transmission gates. When the locking cell is locked, the two gates are enabled such that the locked (i.e., latched) signal passes through both transmission gates and both inverters. In one advantageous aspect, the tracking cell only involves two transmission gates. Due to the circuit topology, the first embodiment is operable from a low supply voltage at a high operating frequency while consuming a low amount of supply current. In a second and third embodiment, the tracking cell involves a pair of inverters. The sources of the transistors of the inverters are, however, coupled together thereby resulting in performance advantages over conventional circuits. | 06-09-2011 |
| 20120242371 | POWER EFFICIENT MULTIPLEXER - A power efficient multiplexer. In accordance with a first embodiment, a power efficient multiplexer comprises a transmission gate structure for selectively passing one of a plurality of input signals and a stacked inverter circuit for inverting the one of a plurality of input signals. Both the stacked inverter and the transmission gate provide beneficial reductions in static power consumption in comparison to conventional multiplexer designs. | 09-27-2012 |
| 20160036424 | POWER EFFICIENT MULTIPLEXER - A power efficient multiplexer. In accordance with a first embodiment, a power efficient multiplexer comprises a transmission gate structure for selectively passing one of a plurality of input signals and a stacked inverter circuit for inverting the one of a plurality of input signals. Both the stacked inverter and the transmission gate provide beneficial reductions in static power consumption in comparison to conventional multiplexer designs. | 02-04-2016 |
