| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 341146000 | Serial conversion | 8 |
| 20080224911 | DIGITAL/ANALOG CONVERTER - Provided is a digital/analog converter including a voltage dividing unit that includes a plurality of voltage dividing elements and divides a reference voltage by voltage division; a first decoder that selects a plurality of voltages among the voltages divided by the voltage dividing unit; a first voltage output unit that is connected to nodes among adjacent voltage dividing elements of the voltage dividing unit and the first decoder, and outputs a plurality of voltages selected by the first decoder; a second decoder that selects any one of the plurality of voltages output from the first voltage output unit; and a second voltage output unit that is connected to the first voltage output unit and the second decoder and outputs the voltage selected by the second decoder. | 09-18-2008 |
| 20080238748 | CYCLIC DIGITAL TO ANALOG CONVERTER IN PIPELINE STRUCTURE - A cyclic digital to analog converter (CDAC) in a pipeline structure includes a first CDAC block and a second CDAC block. The first CDAC block receives a first digital signal and converts the first digital signal to a first analog value. The first CDAC block includes a charging capacitor for charging according to the first digital signal and a first storing capacitor for storing the first analog value. The second CDAC block receives a second digital signal and converts the second digital signal to a second analog value. The second CDAC block includes the charging capacitor for charging according to the second digital signal and a second storing capacitor for storing the second analog value. The first CDAC block and the second CDAC block share the charging capacitor. | 10-02-2008 |
| 20080252505 | Read and Write Interface Communications Protocol for Digital-to-Analog Signal Converter with Non-Volatile Memory - A mixed signal device, e.g., digital-to-analog converter (DAC) device has a serial interface communication protocol that accesses volatile and/or nonvolatile memory and allows a preprogrammed output voltage whenever the mixed signal device is powered-up. However, unlike conventional DAC devices, DAC devices with non-volatile memory may need special interface communication protocols for effective operation of the DAC device and communications between a system master controller unit (MCU). Interface communications protocols that do not violate standard serial bus communications protocols are provided for communicating between the volatile and non-volatile memories of the DAC device so that the MCU may access the DAC device's memories (non-volatile and/or volatile memories). | 10-16-2008 |
| 20080266156 | Digital-to-Analog Converter of the Finite Impulse Response Type - In a signal processing arrangement, a digital-to-analog converter (DAC | 10-30-2008 |
| 20100156689 | A-D CONVERT APPARATUS, D-A CONVERT APPARATUS AND ADJUSTMENT METHOD - An A/D conversion device including a first A/D conversion section and a second A/D conversion section that each include a D/A converter that has a plurality of bit capacitors corresponding to bits of input data, a comparing section that compares a reference voltage with a difference voltage obtained by subtracting an analog input voltage from an output voltage of the D/A converter, and a control section that detects a data value of the input data at which the difference voltage is substantially the same as the reference voltage and outputs the data value as digital data according to the input voltage, and an adjusting section that serially connects the bit capacitors of the D/A converter of the first A/D conversion section and the bit capacitors of the D/A converter of the second A/D conversion section that correspond to the same bits, and adjusts a capacity of at least one of the bit capacitors so that a voltage between the two bit capacitors approaches a middle point of voltages of the two bit capacitors. | 06-24-2010 |
| 20110001647 | System and Method for Analog-to-Digital Conversion - A system for converting an analog signal to a digital signal may include a plurality of converter stages. One of the converter stages may include a multiplying digital-to-analog converter (MDAC) and an analog-to-digital subconverter (ADSC). The MDAC may be configured to (i) receive from a previous stage a first residue analog signal and a first idealized digital signal representing a first portion of the digital signal and corresponding to the first residue analog signal; (ii) convert the first idealized digital signal to an idealized analog signal; and (iii) output a second residue analog signal based on the difference between the first residue analog signal and the idealized analog signal. The ADSC may be configured to convert the second residue analog signal into a second idealized digital signal representing a second portion of the digital signal and corresponding to the second residue analog signal, the ADSC comprising a sloping analog-to-digital converter. | 01-06-2011 |
| 20120306678 | Three-level digital-to-analog converter - A system for processing a signal includes a detector configured to detect a two-level stream of bits; a converter configured to generate a three-level control signal based on two adjacent values within the two-level stream of bits; and a switch configured to determine which of three different paths to couple a current source to based on a value of the three-level control signal. Thus, based on adjacent values of the output stream a three-level control signal is generated which controls coupling of the current source to one of three different paths. This type of three-level digital-to-analog converter can be, for example, part of the feedback loop of an analog-to-digital converter. Similar techniques can also be utilized in a multi-segment digital-to-analog converter in which each segment of the DAC is controlled by a 3-level control signal and the DAC is implement using PMOS devices. The current source for each DAC segment is diverted to ground, the M-node, or the P-node depending on the value of the 3-level control signal. | 12-06-2012 |
| 20130099951 | DIGITAL TO ANALOG CONVERTER (DAC) - A DAC for converting a sequence of digital words into a corresponding analog signal. The DAC includes: a thermometer code generator fed by the sequence of digital words for providing N parallel outputs, each one of the outputs having one of two discrete levels; and an amplifier section having a plurality of N amplifiers, each one of the N amplifiers being fed by a different one of the M outputs. Each one of the amplifiers is driven into saturation in response to one of the two discrete levels or pinched-off in response to the other one of the two discrete levels. A combiner sums outputs of the N amplifiers producing a sequence of analog signals having levels related to the decimal values of the sequence of the digital words. An interconnection network interleaves connections between the thermometer code generator and the plurality of amplifier sections. | 04-25-2013 |
