Cryopump and method for regenerating the cryopump

What is claimed is: 1. A cryopump comprising: a cryopanel; a temperature sensor that measures a temperature of the cryopanel; a refrigerator thermally connected to the cryopanel; a cryopump housing arranged to enclose the cryopanel; a purge valve connected to the cryopump housing to supply a purge gas to the cryopump housing; a heat source that heats the cryopanel, the heat source being different from the purge gas; and a controller communicably connected to the temperature sensor and the refrigerator, the controller using signals to control regeneration of the cryopump, the regeneration including a temperature-raising process and a discharging process subsequent to the temperature-raising process, wherein the controller is configured to successively perform a first temperature-raising and a second subsequent temperature-raising during the temperature-raising process, the first temperature-raising to heat the cryopanel to a first temperature zone higher than the melting point of water, the second subsequent temperature-raising to heat the cryopanel from the first temperature zone to a second temperature zone higher than a purge gas temperature, during the first temperature-raising, the controller opens the purge valve to supply the purge gas to the cryopump housing in order to heat the cryopanel to the first temperature zone higher than the melting point of water, during the first temperature-raising, the controller closes the purge valve to suspend supply of the purge gas to the cryopump housing while a cryopanel temperature is in the first temperature zone, during the second subsequent temperature-raising, the controller controls the heat source to heat the cryopanel from the first temperature zone to the second temperature zone higher than the purge gas temperature, the controller is configured to determine whether a temperature raising completion condition is met during the second subsequent temperature-raising, and the controller is configured to start the discharging process of the regeneration when the temperature raising completion condition is met. 2. The cryopump according to claim 1 , further comprising: a rough valve connected to the cryopump housing in order to rough the cryopump housing, wherein during the second subsequent temperature-raising, the controller opens the rough valve to rough the cryopump housing while the cryopanel is heated from the first temperature zone to the second temperature zone. 3. The cryopump according to claim 2 , wherein during the second subsequent temperature-raising, the controller performs a temperature-raising rough-and-purge in which rough evacuation of the cryopump housing and supply of the purge gas are alternately performed while the cryopanel is heated from the first temperature zone to the second temperature zone, and during the discharging process, the controller performs a discharging rough-and-purge in which rough evacuation of the cryopump housing and supply of the purge gas are alternately performed while the cryopanel temperature is in the second temperature zone. 4. The cryopump according to claim 3 , wherein an interval between purges in the temperature-raising rough-and-purge is longer than an interval between purges in the discharging rough-and-purge, and/or, a purge time in the temperature-raising rough-and-purge is shorter than a purge time in the discharging rough-and-purge. 5. The cryopump according to claim 3 , wherein a roughing pressure in the temperature-raising rough-and-purge is higher than a roughing pressure in the discharging rough-and-purge. 6. The cryopump according to claim 1 , wherein the refrigerator includes a first stage and a second stage cooled to a temperature lower than that of the first stage; the cryopanel includes a high-temperature cryopanel cooled by the first stage and a low-temperature cooled by the second stage, the low-temperature cryopanel includes a radiation shield enclosing the low-temperature cryopanel and provided with a shield open end, and an inlet cryopanel disposed on the shield open end, and the temperature sensor is provided at a center part of the inlet cryopanel. 7. The cryopump according to claim 1 , wherein the purge gas temperature is a room temperature. 8. The cryopump according to claim 1 , wherein a target heating temperature in the second temperature zone is a temperature selected from a range 30° C.-60° C. 9. A method of regenerating the cryopump according to claim 1 , comprising: supplying the purge gas to the cryopump housing; heating the cryopanel to the first temperature zone; suspending supply of the purge gas to the cryopump housing while the cryopanel is in the first temperature zone, and heating the cryopanel from the first temperature zone to the second temperature zone. 10. The method according to claim 9 , further comprising: roughing the cryopump while the cryopanel is heated from the first temperature zone to the second temperature zone. 11. The method according to claim 9 , further comprising: discharging water from the cryopump while the cryopanel is in the second temperature zone.