The output from a linear variable differential transformer is a direct, linear function of the input for its specified measuring range. However, it is possible to use an LVDT beyond its specified measuring range, with a predefined table or polynomial function that provides compensation for the nonlinearity. When the core moves away from the center of the LVDT, known as the null point, the signal from the primary will be coupled to one secondary more than the other. The half-bridge LVDT does not produce a null voltage, and the A/B ratio represents the range-of-travel of the core. An LVDT is designed to have symmetric measurement ranges on each side of null. The term LVDT stands for the Linear Variable Differential Transformer.It is the most widely used inductive transducer that converts the linear motion into the electrical signal.. However, in actual practice, there exists a small voltage known as Residual Voltage, at the null position. To reduce the eddy current losses, the core is provided with a slot. 2. CONSTRUCTION OF LVDT Soft iron cor e • Made of high permeability nickel iron alloy which is hydrogen annealed providing low harmonics, low null voltage & high sensitivity. the difference of the two secondary voltages will increase while maintaining an in-phase relationship with the voltage from the input source. FIG1– LINEAR VARIABLE DIFFERENTIAL TRANSFORMER • THE TRANSFORMER CONSISTS OF A SINGLE PRIMARY WINDING P1 AND TWO SECONDARY … Cross-Sectional View of LVDT Core and Windings Displacing the core to the left (Figure 4) causes the first secondary to be more strongly coupled to the primary than the second secondary. This may be by virtue of the presence of harmonics in the input supply voltage and also due to harmonics produced in the output voltage on account of the use of the iron core. The maximum value of E OUT occurs at maximum core displacement from null (center) position and is a function of the amplitude of the primary-side excitation voltage and the sensitivity factor of the particular LVDT; typically, it is fairly substantial at several volts (RMS). The complex nature of the transformer is also having a phase angle of either 0 or 180 degrees whenever the core is far away from the null position. The output across secondary of this transformer is the differential thus it is called so. Types of LVDT based on applications: 1. An LVDT (linear variable differential transformer= is an electromechanical sensor used to convert mechanical motion or vibrations, specifically rectilinear motion, into a variable electrical current, voltage or electric signals, and the reverse. As the name suggests, many people get confused that it is a Transformer. As the core moves to one side of the null position, the magnitude of one secondary becomes greater than the other. LVDT full form is Linear Variable Differential Transformer. Characteristics of LVDT & its significance Characteristics of LVDT Significance:-As the core is moved in one direction from the null position, the differential voltage i.e. ... Hydrogen annealing is done on Iron core to reduce harmonics, residual voltage of core and thus provides high sensitivity. General Purpose LVDT: for use in many industrial and research applications. Ideally, the output voltage at the null position should be equal to zero. In Figure 1, as the core moves over S1, the voltage output of … Definition of LVDT. The effective voltage and LVDT output is the difference between each secondary. Figure 6: Half-bridge LVDT configuration Note that the LVDT concept can be implemented in rotary form, in which case the device is called a rotary variable differential transformer (RVDT). 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