Thick film resistor and production method for same

The invention claimed is: 1. A thick film resistor comprising a fired product of a resistive composition, wherein the thick film resistor comprises ruthenium-based conductive particles containing ruthenium dioxide and a glass component essentially free of a lead component, the glass component containing at least a first glass component and a second glass component having a glass transition point that is higher than the first glass component; the thick film resistor has a sea-island structure in which the second glass component is scattered in a matrix of the first glass component so as to form islands, a resistance value in a range of 100Ω/□ to 10 MΩ/□ and a temperature coefficient of resistance within ±100 ppm/° C.; and the ruthenium dioxide is present in the matrix of the first glass component, on the surface of the second glass component, and also inside the second glass component in the vicinity of the surface thereof. 2. The thick film resistor according to claim 1 , wherein the thick film resistor has a resistance value in a range of 1 kΩ/□ to 10 MΩ/□. 3. The thick film resistor according to claim 2 , wherein the thick film resistor has a resistance value in a range of 10 kΩ/□ to 10 MΩ/□. 4. The thick film resistor according to claim 3 , wherein the thick film resistor has a resistance value in a range of 100 kΩ/□ to 10 MΩ/□. 5. The thick film resistor according to claim 4 , wherein the thick film resistor has a resistance value in a range of 1 MΩ/□ to 10 MΩ/□. 6. The thick film resistor according to claim 1 , wherein the first glass component comprises a glass component derived from a glass frit which is constituted such that in the case where a fired product of a mixture of the glass frit and the ruthenium dioxide has a value in a range of 1 kΩ/□ to 1 MΩ/□, the fired product exhibits a temperature coefficient of resistance in a plus range. 7. The thick film resistor according to claim 6 , wherein the glass frit comprises, in terms of oxide, 20 to 45 mol % of BaO, 20 to 45 mol % of B 2 O 3 , and 25 to 55 mol % of SiO 2 . 8. The thick film resistor according to claim 1 , wherein the ruthenium-based conductive particles have an average particle size D 50 of 0.01 to 0.2 μm.