Phase difference plate manufacturing method, phase difference plate, and liquid crystal display device

The invention claimed is: 1. A method for manufacturing a phase difference plate, comprising: a step of forming a layered body including a resin layer (a) containing a resin A having positive intrinsic birefringence and a resin layer (b) containing a resin B having negative intrinsic birefringence, the resin layer (b) being provided on one side of the resin layer (a); a first stretching step of stretching the layered body in a first direction at a temperature T 1 ; and a second stretching step of, after the first stretching step, stretching the layered body in a second direction that is approximately orthogonal to the first direction at a temperature T 2 which is lower than the temperature T 1 to obtain a phase difference plate, in the phase difference plate, a slow axis of the resin layer (a) after the stretching treatment and a slow axis of the resin layer (b) after the stretching treatment being approximately parallel to each other, and a thickness of the resin layer (a), a thickness of the resin layer (b), and a stretching ratio and a stretching temperature in the first stretching step and the second stretching step being controlled such that in-plane retardation Rea and NZ coefficient NZa in the resin layer (a) after the stretching treatment, and in-plane retardation Reb and NZ coefficient NZb in the resin layer (b) after the stretching treatment satisfy Formulae 1 to 4: 30 nm< Rea< 60 nm  Formula 1 2.0< NZa< 5.0  Formula 2 60 nm< Reb< 90 nm  Formula 3 −2.0 <NZb <−0.5  Formula 4. 2. The method for manufacturing a phase difference plate according to claim 1 , wherein a glass transition temperature TgA of the resin A and a glass transition temperature TgB of the resin B satisfy a relationship of TgA>TgB+5° C. 3. The method for manufacturing a phase difference plate according to claim 1 , wherein the stretching ratio in the first stretching step is 2 to 4 times, and the stretching ratio in the second stretching step is 1.1 to 2 times. 4. The method for manufacturing a phase difference plate according to claim 1 , wherein the layered body is a lengthy film. 5. The method for manufacturing a phase difference plate according to claim 1 , wherein the layered body is stretched in a crosswise direction in the first stretching step and stretched in a lengthwise direction in the second stretching step. 6. A phase difference plate obtained by the manufacturing method according to claim 1 . 7. A liquid crystal display device comprising a pair of polarizing plates disposed so that absorption axes are approximately orthogonal to each other, and a liquid crystal cell interposed between the pair of polarizing plates, wherein the liquid crystal display device comprises the phase difference plate according to claim 6 interposed between the liquid crystal cell and one of the pair of polarizing plates. 8. The liquid crystal display device according to claim 7 , wherein the liquid crystal cell is of an in-plane switching display mode.