The MAX19777, from Maxim Integrated, is a 12-bit, compact, high-speed, low-power,
successive approximation analog-to-digital converter.
Stabilization of a constant current component is realized by adjusting the speed of the motor through the appropriate regulation of the armature EMF by the iteration method, that is, the
successive approximation of the value of the EMF to the required value of current.
In literature there exist several numerical methods for solving integro-differential equations such as
successive approximation method, meshless method [5], Taylor polynomial [6], Tau method [4], wavelet-Galerkin method [7], Adomain decomposition method [8], Homotopy perturbation method [9], Homotopy analysis method [10], Sinc collocation [11], Legendre polynomials [12], and Taylor collocation method [13].
HONG KONG, Dec 15, 2017 - (ACN Newswire) - Hua Hong Semiconductor Limited ("Hua Hong Semiconductor" or the "Company", together with its subsidiaries, the "Group"; stock code: 1347.HK), a global leading pure-play 200mm foundry, today introduced a world-class 12-bit
Successive Approximation Register Analog Digital Converter (SAR ADC) IP based on its 0.11um Ultra-Low Leakage (ULL) embedded Flash (eFlash) process platform.
Note that, in this paper, explicit expressions of all the estimates associated with each
successive approximation have been presented.
We then study the existence and uniqueness of mild solutions by using
successive approximation. We study the existence and uniqueness of mild solutions by using
successive approximation theory.
In this study, a modified constitutive equation considering strain compensation is built:
successive approximation method is used to obtain the accurate stress exponent n, which is an important parameter in the constitutive equation.
Circuit design contributions include: an analytical model of subthreshold behavior, dominant on standby, of metal oxide semiconductor field effect transistors (MOSFETs) with a silicon or germanium junctionless cylindrical gate; spin lifetime enhancement and manipulation in silicon-on-insulator structures; an energy efficient 12-bit, 1-MS/s
successive approximation register analog-to-digital converter (SAR ADC) for sensor applications using a hybrid charge and complementary metal oxide semiconductor (CMOS) technology; and an architecture of 5.2/5.8 GHz dual band on-off keying (DBOOK) modulated transmitter in CMOS technology for bio-signal transmission with high power efficiency and small area, and impact-based area allocation for yield optimization in integrated circuits.
The method gives the solution in the form of a rapidly convergent
successive approximation that may give the exact solution if such a solution exists.