Patent Number: 041707370
Section: claims

1. A top-entry transmission electron microscope comprising: a stage,  a removable cartridge housed in said stage,  a specimen holder mounted in said removable cartridge,  a magnetic lens, in the field of which is located said specimen holder mounted so that it can be tilted about the axis x perpendicular to the microscope's optical axis,  an electric drive for said holder mechanically coupled with the latter,  an actuating step motor of said electric drive mounted on said stage,  a rotor of said actuating step motor having the axle coincident with said axis x and mechanically coupled with said specimen holder for the synchronous turning of said rotor and holder,  a piezoelectrically actuated electromechanical means for turning said rotor, mechanically coupled with the latter,  a drive-transmitting member of said step motor secured on said rotor-turning electromechanical means,  a pivot secured in said removable cartridge,  a rocker designed to convey drive to said rotor, geared to said drive transmitting member and secured on said pivot so that it can be displaced translationally with respect to said pivot,  a piezoelectrically actuated electromechanical means for positioning said rocker, interacting with said drive transmitting member,  a control voltage shaper for said step motor having an analogue output joined to said rotor-turning electromechanical means and a count input,  a code-to-voltage converter for said control voltage shaper having an output serving as said analogue output for said control voltage shaper and an input,  a Johnson code distributor for said input of said control voltage converter having an output joined to said input of said code-to-voltage converter,  a unit for setting the magnitude and sense of holder displacement having an output for clock pulses and joined to said count input of said control voltage shaper,  a control unit of said unit for setting the magnitude and sense of holder displacement having inputs, meant for receiving the signals of "start," "stop," "reset," "clock pulse frequency," "sense of displacement," "magnitude of displacement," and an output,  a synchronization unit having an input joined to said output of said control unit, an output for clock pulses joined to said control voltage shaper, and a control output joined to said rocker-positioning electromechanical means.  a mechanism for bringing the specimen into coincidence with the tilt axis x,  a bearing pulley of said coincidence mechanism mounted on said rotor so that it can be rotated about the tilt axis x,  a means for braking said bearing pulley with respect to the body of said removable cartridge having an electrical input,  a crank-link mechanism of said coincidence mechanism whose crank is mounted on said bearing pulley whereas its link pin is secured in said rotor perpendicularly to the tilt axis x and lies in the specimen plane,  a sent for housing said specimen provided in the body of said link of said crank-link mechanism,  a switch having an input joined to said control output of said synchronization unit, a first output joined to said rocker-positioning electromechanical means, and a second output joined to said electrical input of said bearing pulley braking means.  a gear rim provided on said rotor,  a tooth provided at the end of said rocker engageable with said rotor and having a profile complementary to the tooth space profiles of said gear rim.  an elastic cantilever element, serving as said pivot, bearing said rocker of said step motor, with one end being rigidly fixed in said removable cartridge body and the other bearing said rocker rigidly secured on this free end of said cantilever element.  a mechanism for translating said link in the specimen plane,  a second bearing pulley with a crank of said link translating mechanism mounted on said rotor so that it can be rotated about the tilt axis x,  a means for braking said second bearing pulley with respect to said removable cartridge having an electrical input,  a slot provided in the body of said link of said crank-link mechanism perpendicular to its pin axis to house said crank of said second bearing pulley,  a second output of said switch connected with said electrical input of said braking means of said second bearing pulley.  a braking rocker designed to interact with said bearing pulley,  a pivot secured to said removable cartridge bearing said braking rocker,  electromechanical means mounted on said stage and designed to interact with said braking rocker during braking.  a second braking rocker designed to interact with said second bearing pulley,  a pivot secured in said removable cartridge bearing said second braking rocker,  a second electromechanical means mounted on said stage and designed to interact with said second braking rocker during braking.  a stage,  a removable cartridge housed in said stage,  a specimen holder mounted in said removable cartridge,  a magnetic lens, in the field of which is located said specimen holder mounted so that it can be tilted about the axis x perpendicular to the microscope's optical axis,  an electric drive for said holder mechanically coupled with the latter and having an actuating step motor mounted on said stage,  a rotor of said actuating step motor having the axle coincident with said axis x and mechanically coupled with said specimen holder for the synchronous turning of said rotor and said specimen holder,  a piezoelectrically actuated electromechanical means for turning said rotor mechanically coupled with said rotor,  a drive-transmitting member of said step motor secured on said rotor-turning electromechanical means,  a pivot secured in said removable cartridge,  a rocker designed to convey drive to said rotor geared to said drive transmitting member and secured on said pivot so that it can move lengthwise with respect to this pivot,  a piezoelectrically actuated electromechanical means for positioning said rocker and interacting with said drive-transmitting member,  a control voltage shaper having an analogue output joined to said rotor-turning electromechanical means and a count input,  a code-to-voltage converter of said control voltage shaper having an output, serving as said analogue output for said control voltage shaper, and an input,  a Johnson code distributor of said control voltage shaper having an output joined to said input of said code-to-voltage converter,  a unit for setting the magnitude and sense of holder displacement having a clock pulse output joined to said count input of control voltage shaper,  a control unit for said unit for setting the magnitude and sense of holder displacement having inputs, meant for receiving the signals of "start," "stop, " "reset," "clock pulse frequency," "sense of displacement," "magnitude of displacement," and an ouput,  a synchronization unit having an input, joined to said output of said control unit, an output of clock pulses, joined to said control voltage shaper, and a control output, joined to said rocker-positioning electromechanical means,  a clock pulse generator of said control unit having an input, serving as said "clock pulse frequency" input of said unit for setting the magnitude and sense of holder displacement, and an output,  a flip-flop of said control unit having an S-input, serving as a "start" input for said unit for setting the magnitude and sense of holder displacement, an R-input and a Q-input,  a second flip-flop of said control unit having an S-input, connected to said S-input of said first flip-flop, an R-input, joined to said R-input of said first flip-flop, a P-output and a count (complementary) input,  a logical OR circuit of said control unit having a first and a second input, serving as "stop" and "reset" inputs of said unit for setting the magnitude and sense of holder displacement, an output joined to said P-inputs of said flip-flops and a third input,  a coincidence circuit for the codes of set and current values of rotor displacement of said control unit having an input, serving as the "magnitude of displacement" input of said unit for setting the magnitude and sense of holder displacement, an output joined to said third input of said logical OR circuit, and a comparison input,  a bidirectional counter of said control unit having an output joined to said comparison input of said coincidence circuit, an input serving as said count input of said control unit, a synchronization input joined to said second input of said logical OR circuit, and a control input,  a switch of said control unit having an input, serving as the "sense of displacement" input of said unit for setting the magnitude and sense of holder displacement and joined to said control input of said bidirectional counter, also having a second, a third input, and an output.  a first logical AND circuit of said synchronization unit having a first input, joined to said output of said clock pulse generator and to said Q-output of said first flip-flop, an output serving as said clock pulse output of said synchronization unit, and a second input,  a one-shot multivibrator of said synchronization unit having an inverted output, joined to said second input of said first logical AND circuit, and an input joined to said P-output of said second flip-flop,  a second logical AND circuit of said synchronization unit having a first input, joined to said P-output of said second flip-flop, a second input joined to said Q-output of said first flip-flop, a third input joined to said output of said switch of said control unit, and an output serving as the control output of said unit for setting the magnitude and sense of holder displacement,  a third logical AND circuit of said synchronization unit having an input, joined to said output of said switch of said control unit, and an output joined to said complementary input of said second flip-flop,  a fourth logical AND circuit of said synchronization unit having an input, joined to said output of said first logical AND circuit, a second input joined to said output of said second logical AND circuit, and an output joined to said count input of said bidirectional counter.  an n-digit Mobius ring counter of said Johnson code distributor having n inputs in accordance with the number of digits, a count input joined to said clock pulse output of said synchronization unit, a "reset" input joined to said "reset" input of said unit for setting the magnitude and sense of holder displacement, Q- and P-outputs of the least significant digit and Q- and P-outputs of the most significant digit,  a logical 2AND-to-2OR circuit of said distributor having a first input, joined to said Q-output of the l.s.d. of said Mobius ring counter, a second input joined to said P-output of the m.s.d. of said Mobius ring counter, a third input joined to said P-output of the l.s.d. of said Mobius ring counter, and a fourth input joined to said Q-output of the m.s.d. of said Mobius ring counter, an output of said third input of said fourth logical AND circuit of said synchronization unit,  at least one redundant digit of said Mobius ring counter having an output, joined to said l.s.d., and an input joined to said m.s.d. of said Mobius ring counter, also having P- and Q-outputs joined to said second and third inputs of said switch of said control unit.  a non-linear Johnson-code-to-voltage converter of said code-to-voltage converter having n inputs joined to said n outputs of said Mobius ring counter, and an output joined to said electromechanical means of said step motor,  a linear Johnson-code-to-voltage converter of said code-to-voltage converter having n inputs, joined to said n outputs of said Mobius ring counter, and an output,  a comparator of said code-to-voltage converter having an input, joined to said output of said linear Johnson-code-to-voltage converter, an output joined to said input of said third logical AND circuit of said synchronization unit, and a second input,  a gate of said code-to-voltage converter having a control input, joined to said output of said logical OR circuit of said control unit, a second input joined to said output of said linear converter, and an output,  an analogue storage of said converter having an input, joined to said output of said gate, and an output joined to said second input of said converter. 2. A top-entry transmission electron microscope, as claimed in claim 1, comprising: 3. A top-entry transmission electron microscope, as claimed in claim 1, comprising: 4. A top-entry transmission electron microscope, as claimed in claim 1, comprising: 5. A top-entry transmission electron microscope, as claimed in claim 1, comprising a friction increasing means provided on the end of said rocker of step motor to interact with said drive transmitting member. 6. A top-entry transmission electron microscope, as claimed in claim 2, comprising: 7. A top-entry transmission electron microscope, as claimed in claim 2, comprising: 8. A top-entry transmission electron microscope, as claimed in claim 6, comprising: 9. A top-entry transmission electron microscope, as claimed in claim 7, comprising a friction increasing means provided on the end of said braking rocker to interact with said electromechanical means. 10. A top-entry transmission electron microscope, as claimed in claim 7, whose said first electromechanical means is piezoelectrically actuated. 11. A top-entry transmission electron microscope, as claimed in claim 8, comprising a friction increasing means provided on said second braking rocker to interact with said second electromechanical means. 12. A top-entry transmission electron microscope, as claimed in claim 8, whose said second electromechanical means is piezoelectrically actuated. 13. A top-entry transmission electron microscope comprising: 14. A top-entry transmission electron microscope, as claimed in claim 13, comprising 15. A top-entry transmission electron microscope, as claimed in claim 14, comprising-- 16. A top-entry transmission electron microscope, as claimed in claim 15, comprising