The article presents kinematic diagrams and computer analysis of three types of eccentric transmission schemes.
 The graphical dependences of the kinematic error of the eccentric transmission are presented for the coaxial and
 parallel arrangement of the input and output shafts in two single-flow loading schemes. Computer analysis of an
 eccentric transmission with single-flow loading schemes showed that the kinematic error with the coaxial arrangement
 of the input and output shafts is 30 times lower than with the parallel arrangement of these shafts. In order to reduce
 the kinematic error of an eccentric transmission with a parallel arrangement of input and output shafts, a two-flow
 loading scheme was proposed. It has been established that the use of a double-flow loading scheme makes it possible
 to reduce the kinematic error by 12 times compared to a single-flow loading scheme with a load on the output shaft
 of 10 N∙m.
 It is planned to use the design of an eccentric transmission with a parallel arrangement of input and output
 shafts with several power flows when designing various types of gearboxes for cultivators.