SU935900A1 - Direct current stabilizer - Google Patents

Description

(54) STABILIZES "R P XTOIANNS" ABOUT CURRENT

Claims (2)

The invention relates to electrical engineering, specifically to power supply systems for analyzing magnets of electron microscopes. A device for regulating a direct current is known, in which a series current circuit consists of an adjustable current source, a load on a current deviation sensor connected together with a reference element to a measuring unit connected to an adjustable direct current source, detected by a difference of the signal values from a current deviation sensor and the support element 1. The disadvantage of such a device is the inability to maintain a direct current with stability better than 1 O due to the instability of the deviation sensors Single effect and thermo-electromotive force in connection with the fact that by 10 circuit voltage at the input of the inverse communication for 1fetsizionnyh stabilizers commensurate with m "yoke-emf. Closest to the invention is a DC regulator containing an adjustable current source, one output terminal of which is connected to one of the terminals for connecting the load directly, and the other output terminal is connected to another terminal for connecting the load through an elec- tric inductance connected to the output of a superconducting quantum paper interferometer, and a reference current source of 12. The disadvantage of this device is the narrow control range. Target from (etenv 1; - extension of the range of direct current control in the direction of high currents. This goal is achieved by the fact that a connecting flow transformer and an adjustable inductance element are introduced into the device, and the superconductive flow transformer is inductively connected to both of these the elements of inductance and the input of a superconducting quantum interferometer, and an adjustable element of inductance connected to the output of a reference source, made in the form of a source of reference current. The drawing shows a scheme for the stabilization of a direct current jam. The circuit contains an adjustable DC source 1, a load 2, an inductance element 3, a superconducting quantum magnetic interferometer 4, a superconducting flux transformer 5, an adjustable inductance element 6, a reference current source 7. Stabilization is accomplished by converting the current deviation into a load ke 2 to the deflection of the magnetic field. In the first element of the inductance 3. This deflection is perceived by the quantum interferometer 4 and, converted into a feedback signal, is fed to the control input of the source then and I. When transition to a different value of current in the load necessary to bring the quantum inter yurometr of superconductive state s reconstruct source to a new level. In order to extend the control range, a superconducting flux transformer 5 connected to the first inductance element and a quantum interferometer and an adjustable inductance element 6 connected to the reference current source 7 from the reference current source through the adjustable inductance element are additionally introduced into the circuit. 6, a predetermined current 3 jj- is established, the corresponding magnetic flux leading to the inductance element. otok first inductance element 3. In the present sverhgfovod tra sfchrmatore 5 due to inductive coupling is induced current flows from both the inductance elements respectively transfer coefficients. - Hz K. When the current reaches 5c in a load of a given level, the induced currents J., ... O. are compensated. The current of the flux transformer induces in the winding associated with the quantum interferometer, the flux corresponding to which the interferometer produces a feedback signal, the transducer & 0 ..4 straining source to a new level about the full compensation of the current in the current transformer. Thus, it is possible to regulate the currents many times greater than the currents in the circuit of the reference source. The change of the adjustment range is carried out by selecting the ratio of the turns in the flow transformer. Due to the smallness of the currents in the adjustable inductance element, thermally stabilized normal elements can be used as a reference current, the current of which is limited by highly stable resistors. . When used as a load winding of an analyzing magnet of an electron microscope, it becomes possible to perform a smooth adjustment of the current source by visually monitoring the beam quality by effect, which saves the operator's time when setting up the microscope. Claims The DC stabilizer contains an adjustable current source, one output of which is connected to one of the terminals for connecting the load directly, and the other output terminal is connected to another terminal for connecting the load through an inductance element, the control input of the adjustable current source is connected to the output of the super conductor quantum magnetic interferometer, and a reference current source, characterized in that, in order to extend the current control limits in the direction of large currents a superconducting flow transformer and an adjustable inductance element are introduced into it, the overcurrent flow transformer is inductively connected to both of these inductances and the input of the superconducting quantum magnetic interferometer, and the adjustable inductance element is connected to the output of the external current source. Sources of information, one in attention to the examination 1.ABTOfKiKoe examination of the USSR certificate hfe 479097, cl. Q 05 F 1/46, 1973. 2. USSR author's certificate for application no. 2760706/07, cl. q O5 F 1/56, 1979.