Electronic balance

The invention claimed is: 1. An electromagnetic force electronic balance, comprising: a Roberval mechanism that guides weight transmission from a weighing pan; a beam that is swayed while being guided by the Roberval mechanism; a beam position detecting unit that comprises a window punched at a tip end of the beam; a light emitting element disposed on one side via the window; and light receiving elements, having photovoltaic effect, disposed on the other side via the window and disposed in upper and lower sides of the window; and a beam equilibrium setting unit that sets the beam position detecting unit in two or more equilibrium states by changing a conversion coefficient of one current/voltage converter of one photovoltaic current emitted from one of the upper and lower sides of the light receiving elements into a value that is different from a conversion coefficient of the other current/voltage converter. 2. An electromagnetic force electronic balance, comprising: a Roberval mechanism that guides weight transmission from a weighing pan; a beam that is swayed while being guided by the Roberval mechanism; a beam position detecting unit that comprises a movable electrode, fixed at a tip end of the beam, movable upward and downward in interlock with the beam; and immovable electrodes arranged in upper and lower sides of the movable electrode and each fixed; and a beam equilibrium setting unit that sets the beam position detecting unit in two or more equilibrium states by changing a conversion coefficient of one capacitance/voltage converter for detecting a capacitance between the upper immovable electrode and the movable electrode into a value that is different from a conversion coefficient of the other capacitance/voltage converter for detecting a capacitance between the lower immovable electrode and the movable electrode. 3. The electromagnetic force electronic balance according to claim 1 , further comprising the electronic balance further comprises a performance confirming means that checks repetition performance of the balance by changing the beam position detecting unit alternately between two states among the two or more equilibrium states. 4. The electromagnetic force electronic balance according to claim 1 , further comprising: the electronic balance further comprises a calibrating means that calibrates the balance by use of measurement values of two states among the two or more equilibrium states. 5. The electromagnetic force electronic balance according to claim 2 , further comprising: the electronic balance further comprises a performance confirming means that checks repetition performance of the balance by changing the beam position detecting unit alternately between two states among the two or more equilibrium states. 6. The electromagnetic force electronic balance according to claim 2 , further comprising: the electronic balance further comprises a calibrating means that calibrates the balance by use of measurement values of two states among the two or more equilibrium states.