Class / Patent application number | Description | Number of patent applications / Date published |
327284000 | Including delay line or charge transfer device | 8 |
20080309392 | Programmable Digital Delay - A method of delaying successive first and second input signals by first and second different selectable time periods using a programmable delay line comprising a sequence of delay elements, each introducing a delay, the method comprising the steps of: providing a control signal to each delay element, the control signal selectively being in a first logic state or a second logic state wherein in a first logic state the delay element selects an input from an adjacent delay element thereby to select the delay elements as part of a set of delay elements introducing said selectable time period and in a second logic state the delay element is not selected in the set; setting the control signals for a first number of adjacent delay elements to the first logic state to introduce the first selectable time period wherein the control signals for the delay elements in the sequence not in the first number are set to the second logic state; and setting the control signals of a second number of adjacent delay elements to the first logic state to introduce a second selectable time period, wherein the control signals for the delay elements in the sequence not in the second number are set to the second logic state; whereby the reconfiguration time between the first and second input signals is less than the maximum delay introduced by the sequence of delay elements. | 12-18-2008 |
20090146717 | INCREASING CHARGE CAPACITY OF CHARGE TRANSFER CIRCUITS WITHOUT ALTERING THEIR CHARGE TRANSFER CHARACTERISTICS - A technique for increasing the charge storage capacity of a charge storage device without changing its inherent charge transfer function. The technique may be used to implement a charge domain signal processing circuits such as Analog to Digital Converters (ADCs) used in digital radio frequency signal receivers. | 06-11-2009 |
20100327934 | DIGITAL DELAY LINES - Some embodiments provide real-time variable delays in a delay line. In some of these embodiments, the real-time variable delays may be enable without producing clock glitches. In an embodiment, delay cells in a delay line may be coupled together in a chain to form a lattice of inverters providing different paths of signal propagation. Each path may have a different number of inverters; each inverter adding a known processing time associated with the signal inversion process. In some embodiments, an input signal may be propagated in an inverted or non-inverted form to the inputs of multiple inverters in the lattice, including the inputs of inverters through which the input signal does not propagate. A desired delay time may be obtained in an embodiment by selecting a path containing a desired number and configuration of inverters. The path may be selected in an embodiment using switchably enabled inverters. | 12-30-2010 |
20120286840 | DELAY GENERATOR - A delay generator comprises: a current source for supplying a current; a first delay portion, connected to the current source, comprising at least a plurality of inverters and a first capacitor having a first capacitance; and a second delay portion, connected to the current source, comprising at least a plurality of inverters and a second capacitor having a second capacitance, wherein the first capacitance is the same as the second capacitance, wherein the first delay portion generates a first delay by discharging of the first capacitor, wherein the second delay portion generates a second delay by charging of the second capacitor, and wherein the total delay generated by the delay generator is obtained by summation of the first delay and the second delay. | 11-15-2012 |
20130141151 | ANALOG DELAY CELLS FOR THE POWER SUPPLY OF AN RFID TAG - A delay circuit for an RFID tag includes a power supply input and a power supply output and one or more delay circuits in cascade connection between the power supply input and the power supply output. A first delay circuit includes a passive circuit, a second delay circuit includes a ramp circuit, and a third delay circuit includes a current mirror circuit. | 06-06-2013 |
20130162315 | SIGNAL TRANSMISSION/RECEPTION SYSTEM - A signal transmission/reception system includes a transmission line, a signal transmission circuit configured to generate a transfer signal and transfer the transfer signal through the transmission line, wherein a logic value of the transfer signal is changed whenever a pulse signal is input to the signal transmission circuit, and a signal reception circuit configured to receive the transfer signal through the transmission line and generate a restoration signal using the transfer signal and a delayed transfer signal obtained by delaying the transfer signal. | 06-27-2013 |
20130200937 | DELAY LINE WITH CELL BY CELL POWER DOWN CAPABILITY - A delay line with cell by cell power down capability and methods of use are provided. The delay cell includes a first gate transistor coupled to a voltage supply, a second gate transistor coupled to ground, and a reset signal provided to at least one of the first gate transistor and the second gate transistor. The reset signal turns the delay cell on and off. | 08-08-2013 |
20160065196 | MULTI-PHASE CLOCK GENERATION - Embodiments are disclosed that relate to multi-phase clock generators and data samplers for use in high speed I/O circuitry. One disclosed example provides a multi-phase clock generator including a delay line having a plurality of delay elements, the delay line being configured to receive an input clock signal and output a plurality of output clock signals having different phases compared to a phase of the input clock signal. The multi-phase clock generator further includes a control circuit configured to control the delay line based at least in part upon rising edges and falling edges of one or more output clock signals output at one or more locations along the delay line. | 03-03-2016 |