Particulate detection system

The invention claimed is: 1. A particulate detection system for detecting the quantity of particulates contained in a gas under measurement flowing through a gas flow pipe, comprising: a detection section attached to the gas flow pipe; a drive circuit for driving the detection section; and a control section for controlling the drive circuit and detecting the quantity of the particulates, wherein the detection section includes: an ion source for generating ions by means of gaseous discharge, a particulate electrification section for mixing a portion of the gas under measurement with the ions to thereby produce electrified particulates which originate from the particulates within the gas under measurement and which carry the ions adhering thereto, and a heater for heating the ion source; wherein the drive circuit includes: an ion source drive circuit for performing constant current control such that the gaseous discharge current supplied to the ion source becomes equal to a predetermined target current, and a heater energization circuit for energizing the heater; and wherein the control section includes: a detection circuit for detecting a signal corresponding to the quantity of the electrified particulates, and a processor configured to execute instructions configured to: cause the heater energization circuit to perform low-temperature energization for a predetermined period after operation of the ion source by the ion source drive circuit has been started, to thereby increase the temperature of the heater to a heater temperature at which water adhering to the ion source is removed, determine, after elapse of the predetermined period, whether or not the gaseous discharge current supplied from the ion source drive circuit has converged to a predetermined allowable range including the target current, when it is determined that the gaseous discharge current has not yet converged, cause the heater energization circuit to perform high-temperature energization until the gaseous discharge current converges to the predetermined allowable range, to thereby increase the temperature of the heater to a heater temperature at which a foreign substance which adheres to the ion source and cannot be removed by the low-temperature energization is removed, and start detection of the quantity of the particulates through use of the signal after the gaseous discharge current has converged to the allowable range. 2. A particulate detection system according to claim 1 , wherein the detection section includes a collection electrode for collecting floating ions which are a portion of the ions and which failed to adhere to the particulates when the ions was mixed with the gas under measurement, and an auxiliary electrode for assisting the collection of the floating ions by the collection electrode; the drive circuit includes an auxiliary electrode drive circuit for driving the auxiliary electrode; and the heater is configured to heat the auxiliary electrode in addition to the ion source.