The formation of new high-tech markets in the agro-industrial complex should be based on a systematic approach to achieve a number of goals, including meeting the mid-spatial needs of crops for water and dissolved nutrients. The use of such technologies in irrigation involves the design and subsequent technical implementation of the system, taking into account the achievement of a number of goals, in particular, the ability to control the irrigation process by meeting the specific needs of individual plants, and not irrigation, in which the process parameters are averaged over the entire sown area. The paper presents a scheme and algorithm for the operation of a sprinkler irrigation system with hydraulic, electric and reciprocating machines, which makes it possible to obtain the required target values of integral performance indicators, uniformity of water supply and relative infiltration rate for the irrigated area in the process of its practical implementation. Taking into account various combinations of parameters of the main mechanisms of the irrigation system under study, equilibrium and material balance equations are written for dynamic models corresponding to these mechanisms. For the accepted ratio, which determines the kinetic energy of a drop per unit area, an expression is obtained for calculating the speed of a drop in air with a variable mass. The given scheme of the network makes it possible to ensure the supply of water for irrigation, taking into account the degree of remoteness of the irrigated area from the source of water supply and, secondly, the possible combination of options for its operation in relation to two irrigation methods: gravity and mechanical water supply using a diesel pumping unit and a sealed centrifugal pump with a canned asynchronous motor.