Sensor controller

What is claimed is: 1. A sensor controller applied to a particulate matter detection sensor, the particulate matter detection sensor including an attachment portion to which conductive particulate matter contained in gas is attached, and a pair of opposed electrodes spaced from each other at the attachment portion, the particulate matter detection sensor being adapted to output a sensor detection value corresponding to a resistance of the particular matter between the pair of opposed electrodes, the sensor controller being adapted to calculate an amount of attached particulate matter based on the sensor detection value from the particulate matter detection sensor, the sensor controller comprising: a heater configured to heat the attachment portion so as to burn and remove the particulate matter attached to the attachment portion; abnormality diagnosis means for obtaining the sensor detection value outputted from the particulate matter detection sensor during a heating of the heater, and for performing diagnosis of abnormality of the particulate matter detection sensor; and means for storing the sensor detection value as a reference value after the heating of the heater starts, wherein the sensor detection value is stored as the reference value upon the resistance between the pair of electrodes changing to increasing in accordance with the particulate matter being burned and removed during the heating of the heater, wherein the abnormality diagnosis means calculates a rate of change in the sensor detection value during a time period in which the resistance between the opposed electrodes is increasing during the heating of the heater, wherein the abnormality diagnosis means calculates a reference rate based on the stored reference value, and the abnormality diagnosis means performs the diagnosis of abnormality of the particulate matter detection sensor by comparing the calculated rate of the change in the sensor detection value to the calculated reference rate. 2. A system comprising: a particulate matter detection sensor, the particulate matter detection sensor including an attachment portion to which conductive particulate matter contained in gas is attached, and a pair of opposed electrodes spaced from each other at the attachment portion, the particulate matter detection sensor being configured to output a sensor detection value corresponding to a resistance of the particular matter between the pair of opposed electrodes; a heater configured to heat the attachment portion so as to burn and remove the particulate matter attached to the attachment portion; and an electronic control unit configured to: calculate an amount of attached particulate matter based on the sensor detection value from the particulate matter detection sensor; obtain the sensor detection value outputted from the particular matter detection sensor during a heating of the heater; perform diagnosis of abnormality of the particulate matter detection sensor; store the sensor detection value as a reference value after the heating of the heater starts wherein the sensor detection value is stored as the reference value upon the resistance between the pair of electrodes changing to being increased in accordance with the particulate matter being burned and removed during the heating of the heater; calculate a rate of change in the sensor detection value during a time period in which the resistance between the opposed electrodes is increasing during the heating of the heater, calculate a reference rate based on the stored reference value, and wherein the electronic control unit performs the diagnosis of abnormality of the particulate matter detection sensor by comparing the calculated rate of the change in the sensor detection value to the calculated reference rate. 3. The sensor controller according to claim 1 , wherein one of the pair of opposed electrodes is connected to a sensor power supply, the other of the pair of opposed electrodes is connected to the resistor, the particulate matter detection sensor outputs a voltage at an intermediate point between the other of the pair of opposed electrodes and the resistor as the sensor detection value, and the abnormality diagnosis means performs the diagnosis of the particulate matter detection sensor, based on a rate of decrease in the sensor detection value for the time period in which the resistance between the opposed electrodes changes to increase. 4. The sensor controller according to claim 1 , wherein the abnormality diagnosis means performs the diagnosis of abnormality of the particulate matter detection sensor during a heating of the heater only. 5. The system according to claim 2 , wherein the electronic control unit performs the diagnosis of abnormality of the particulate matter detection sensor during a heating of the heater only. 6. The sensor controller according to claim 1 , wherein the storing means stores the sensor detection value as the reference value upon the resistance between the pair of electrodes changing from remaining steady during the heating of the heater to increasing during the heating of the heater. 7. The sensor controller according to claim 1 , wherein the resistance between the pair of electrodes, during the heating of the heater, decreases and then increases.