Liquid delivery pump and liquid chromatograph

The invention claimed is: 1. A liquid delivery pump comprising: a primary plunger pump; a secondary plunger pump fluidly connected in series downstream of the primary plunger pump; and a pressure sensor that detects a system pressure that is a pressure of a mobile phase delivered from an outlet of the secondary plunger pump, wherein the liquid delivery pump is configured to alternately and continuously execute a primary discharge process in which the primary plunger pump performs discharge operation and a secondary discharge process in which the secondary plunger pump performs discharge operation, the liquid delivery pump further comprising: a liquid delivery control part configured to execute first constant pressure control in a first constant pressure control term and to execute second constant pressure control in a second constant pressure control term, wherein the first constant pressure control term is a term, which is in a liquid delivery cycle consisting of the primary discharge process and the secondary discharge process, in which the primary discharge process is executed, the second constant pressure control term is a part of a term in which the secondary discharge process is executed, and the second constant pressure control term is including a term that is continuous after the first constant pressure control term; and a target pressure setting part configured to set a target pressure for the first constant pressure control and the second constant pressure control with reference to the system pressure in a term other than the second constant pressure control term in the term in which the secondary discharge process is executed, wherein in the first constant pressure control, an operation amount of a combined flow rate, which is a flow rate obtained by subtracting a suction flow rate of the secondary plunger pump from a discharge flow rate of the primary plunger pump, is calculated using a first equation, and an operation speed of the primary plunger pump and/or the secondary plunger pump are/is adjusted so as to increase or decrease the combined flow rate by the calculated operation amount, in the second constant pressure control, an operation amount of a discharge flow rate of the secondary plunger pump is calculated using a second equation, and an operation speed of the secondary plunger pump is adjusted so as to increase or decrease a discharge flow rate of the secondary plunger pump by the calculated operation amount, the first equation includes at least a proportional term and an integral term of a pressure deviation that is a difference between the target pressure and the system pressure, and the second equation includes at least a proportional term of the pressure deviation, and degree of contribution of an integral term of the pressure deviation in the second equation is smaller than that in the first equation. 2. The liquid delivery pump according to claim 1 , wherein degree of contribution of the integral term in the second expression is zero. 3. The liquid delivery pump according to claim 1 , wherein the first equation and the second equation include a differential term of the pressure deviation. 4. The liquid delivery pump according to claim 1 , wherein the first equation includes a forming coefficient multiplied by the integral term, and the forming coefficient changes between 0 and 1 in proportion to an operation speed of a plunger of the primary plunger pump. 5. The liquid delivery pump according to claim 1 , wherein the second constant pressure control term includes a term continuous before the first constant pressure control term. 6. The liquid delivery pump according to claim 1 , further comprising: an integral term final value storage part configured to store a final value of the integral term in a continuous constant pressure control term consisting of the first constant pressure control term and the second constant pressure control term until a start point of the constant pressure control term of a next one of the liquid delivery cycle, wherein the liquid delivery control part is configured to use the final value stored in the integral term final value storage part at least partially as an initial value of the integral term of the next one of the liquid delivery cycle for calculation of the operation amount. 7. A liquid chromatograph comprising: a separation column for separating a sample into individual components; an analysis channel leading to the separation column; the liquid delivery pump according to claim 1 for delivering a mobile phase in the analysis channel; a sample injector that injects the sample into the mobile phase flowing through the analysis channel upstream of the separation column; and a detector that is fluidly connected downstream of the separation column and detects the components separated in the separation column.