MOTOR-DRIVEN SURGICAL CUTTING INSTRUMENT
First Claim
Patent Images
1. A surgical instrument for cutting and stapling tissue, wherein the surgical instrument comprises:
- a handle comprising;
an electric motor; and
a control system for controlling said electric motor, said control system comprising;
a battery operably coupleable to said electric motor, said battery configured to supply pulses to said electric motor; and
a pulse width modulation circuit operably coupleable to said battery, said pulse width modulation circuit configured to control the duration of pulses supplied from said battery to said electric motor;
a shaft extending from said handle; and
an end effector extending from said shaft, said end effector comprising;
a plurality of staples for stapling tissue; and
a cutting element for cutting tissue, said cutting element configured to move at least partially through said end effector during a firing stroke, said electric motor configured to drive said cutting element with an applied power during the firing stroke, wherein the applied power applied to said cutting element is optimized by said pulse width modulation circuit.
5 Assignments
0 Petitions
Accused Products
Abstract
A motor-driven surgical cutting and fastening instrument that comprises an end effector, an electric motor, and a motor control circuit. The motor control circuit is for monitoring a parameter of the electric motor that is indicative of movement of a moveable member of the end effector, and for adjustably controlling the electric motor based on the monitored parameter to thereby adjustably control movement of the moveable member of the end effector during forward rotation of the electric motor.
-
Citations
20 Claims
-
1. A surgical instrument for cutting and stapling tissue, wherein the surgical instrument comprises:
-
a handle comprising; an electric motor; and a control system for controlling said electric motor, said control system comprising; a battery operably coupleable to said electric motor, said battery configured to supply pulses to said electric motor; and a pulse width modulation circuit operably coupleable to said battery, said pulse width modulation circuit configured to control the duration of pulses supplied from said battery to said electric motor; a shaft extending from said handle; and an end effector extending from said shaft, said end effector comprising; a plurality of staples for stapling tissue; and a cutting element for cutting tissue, said cutting element configured to move at least partially through said end effector during a firing stroke, said electric motor configured to drive said cutting element with an applied power during the firing stroke, wherein the applied power applied to said cutting element is optimized by said pulse width modulation circuit. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A surgical stapler, comprising:
-
a firing member configured to move through a plurality of positions during a firing stroke; an electric motor configured to drive said firing member with a speed during the firing stroke; a control system for controlling said electric motor, said control system comprising; a battery operably engageable with said electric motor, said battery configured to supply pulses to said electric motor; and a pulse width modulation circuit operably engageable with said battery, said pulse width modulation circuit configured to control the duration of pulses supplied from said battery to said electric motor, wherein said pulse width modulation circuit is configured to optimize the speed applied to said firing member from said electric motor. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
-
-
15. A surgical stapler, comprising:
-
a firing member configured to move through a plurality of positions during a firing stroke; an electric motor configured to drive said firing member during the firing stroke; a control system for controlling said electric motor, said control system comprising; a battery operably engageable with said electric motor, said battery configured to supply pulses to said electric motor; and a pulse frequency modulation circuit operably engageable with said battery, said pulse frequency modulation circuit configured to control the frequency of pulses supplied from said battery to said electric motor, wherein said pulse frequency modulation circuit is configured to optimize the speed applied to said firing member from said electric motor. - View Dependent Claims (16, 17, 18, 19, 20)
-
Specification