Abstract: This invention provides a compound of the formula (I): ##STR1## and its pharmaceutically acceptable salts, wherein A.sup.1 and A.sup.2 are each halo; R.sup.1 and R.sup.2 are independently C.sub.1-4 alkyl; R.sup.3 is substituted or unsubstituted, phenyl or naphthyl; Y is heterocyclic group selected from C.sub.5-10 azacycloalkyl, C.sub.6-10 diazacycloalkyl, C.sub.7-10 azabicycloalkyl and the like; and R.sup.4 is selected from (a) substituted or unsubstituted C.sub.1-8 alkyll; (b) substituted or unsubstituted amino; (c) substituted or unsubstituted C.sub.2-6 alkanoyl; (d) substituted or unsubstituted C.sub.3-8 cycloalkyl or C.sub.7-14 bicycloalkyl; (e) substituted or unsubstituted C.sub.5-10 azacycloalkyl or C.sub.6-10 diazacycloalkyl, and (f) substituted or unsubstituted C.sub.7-14 mono- or di-azabicycloalkyl. These compounds are useful for the treatment of medical conditions caused by bradykinin such as inflammation, cardiovascular disease, pain, etc.

Abstract: Unsaturated inductances of an equivalent circuit of a synchronous machine are measured from the following steps: An armature resistance of a synchronous machine is measured. A time constant of an armature with damper under a quadrature-axis magnetomotive force is measured when an armature and a field are in a positional relationship wherein a magnetomotive force by flowing current to an armature coil of the synchronous machine becomes the quadrature-axis magnetomotive force. Also, a current and a voltage of the armature are measured when the armature and the field are in the positional relationship by a quadrature-axis Dalton-Cameron method. The measured values are then used for solving equations defining inductances of a quadrature-axis equivalent circuit of the synchronous machine.

Abstract: An apparatus for measuring the electrical time constant of the quadrature-axis damper of a synchronous machine is designed such that a voltage from a d.c. power source is applied by switching to armature windings of two. phases, so that an armature current rises and thereafter maintains a constant value. A current induced on a quadrature-axis damper diminishes at a rate determined by the quadrature-axis damper time constant, and this decreasing current and the constant armature current flow inside the synchronous machine to produce a constant resistance drop by resistance of the armature windings and the armature current. In this time, the length of time length until the voltage waveform falls to a prescribed level is measured as the time constant of the quadrature-axis damper with such a measuring device as an electromagnetic oscilloscope.

Abstract: A method of measuring unsaturated inductances of an equivalent circuit of a synchronous machine including measuring a no-load saturation characteristic of a synchronous machine; measuring a three-phase short-circuit characteristic of the synchronous machine; measuring currents and voltages of an armature and a field when an armature coil and a field coil are in a positional relationship wherein a magnetomotive force by flowing current to the armature coil of the synchronous machine becomes a direct-axis magnetomotive force and both when the field coil is in an open-circuit state and when the field coil is in a short-circuit state by direct-axis Dalton-Cameron method; and solving simultaneous equations concerning a direct-axis equivalent circuit of the synchronous machine by using results of the measuring the no-load saturation characteristic, the measuring the three-phase short-circuit characteristic and the measuring by the direct-axis Dalton-Cameron method, thereby obtaining impedances of respective element

Abstract: A heat resistant and explosion-proof permanent magnetic synchronous motor having a stator which includes an armature iron core made by piling up steel plates with surface covered with a mineral insulation material and disposed on an inner peripheral surface of a pressure case, an armature coil made by winding a wire covered with a mineral insulation material around a slot of the armature iron core, a can hermetically sealing the armature iron core, a back-up sleeve supporting the can at a portion where the armature iron core is not provided, and a slot piece of a mineral insulation material supporting the can at an opening portion of the slot.

Abstract: An apparatus for measuring the time constant of the direct-axis damper of a synchronous machine is designed such that a voltage from a d.c. power source is applied by switching to armature windings of two phases, so that an armature current rises and thereafter it keeps a constant value. A current induced on a direct-axis damper diminishes at a moderate rate of the direct-axis damper time constant, and this decreasing current and the constant armature current flow inside the synchronous machine. In response to a change in the induction current on the direct-axis damper caused by the transition of the armature current to the steady state, a voltage induced on the field winding rises sharply and then falls gradually. The time length until the field winding voltage falls to a prescribed level is measured as the time constant of the direct-axis damper with such a measuring device as an electromagnetic oscilloscope.

Abstract: A linear motor having phase armature windings which are not completely contained within a partial space of an iron core of the linear motor. The phase armature windings consist of a phase armature winding which is entirely contained within the partial space and positioned at the ends of the partial space with respect to the travelling direction of the magnetic field produced by the linear motor and of other phase armature windings which are not completely contained within the partial space. The number of the turns of the former phase armature winding is arranged to be larger than the summed number of turns of the latter phase armature windings. The former phase armature winding may be a concentric winding while the latter phase armature windings are body-belt-like windings.