Air flow measuring device

What is claimed is: 1. An air flow measuring device for producing an intake air amount detection signal and an intake temperature detection signal which indicate a flow rate and a temperature of intake air drawn into an internal combustion engine, respectively, the air flow measuring device comprising: a housing that projects into an intake passage through which the intake air flows and that includes an internal passage which takes in a part of intake air flowing through the intake passage and through which the part of intake air passes; a high-temperature resistance that is disposed in the internal passage and has its energization controlled in accordance with the flow rate of intake air flowing through the internal passage to increase or decrease an amount of heat generated; a first low-temperature resistance that is an element constituting a bridge circuit which has its energization state changed according to the amount of heat generated by the high-temperature resistance, wherein the first low-temperature resistance varies its resistance value according to the temperature of intake air; a second low-temperature resistance that is an element, which is not incorporated into the bridge circuit and varies its resistance value according to the temperature of intake air to increase or decrease an amount of energization; a predetermined substrate on which the second low-temperature resistance is provided as a semiconducting or metallic film; another bridge circuit that produces the intake air amount detection signal by use of an electrical signal generated by operation of the high-temperature resistance and the first low-temperature resistance; and a digital circuit that uses an electrical signal produced by the second low-temperature resistance as the intake temperature detection signal. 2. The air flow measuring device according to claim 1 , further comprising: a processing part that performs processing to produce the intake air amount detection signal; a first auxiliary resistance that is influenced by heat generation of the processing part to vary its resistance value, thereby increasing or decreasing an amount of energization; and a correction part that corrects the electrical signal produced by the second low-temperature resistance by an electrical signal produced by the first auxiliary resistance. 3. The air flow measuring device according to claim 1 , further comprising: a processing part that performs processing to produce the intake air amount detection signal; a portion that excludes the high-temperature resistance and the processing part; a second auxiliary resistance that varies its resistance value by heat transfer from the portion, thereby increasing or decreasing an amount of energization; and a correction part that corrects the electrical signal produced by the second low-temperature resistance by an electrical signal produced by the second auxiliary resistance. 4. The air flow measuring device according to claim 1 , further comprising: a third auxiliary resistance that varies its resistance value due to heat transfer from intake air heated by the high-temperature resistance in the internal passage, thereby increasing or decreasing an amount of energization; and a correction part that corrects the electrical signal produced by the second low-temperature resistance by an electrical signal produced by the third auxiliary resistance. 5. The air flow measuring device according to claim 1 , further comprising a correction part that corrects the electrical signal produced by the second low-temperature resistance in accordance with a pattern of a temporal change of the electrical signal of the second low-temperature resistance. 6. The air flow measuring device according to claim 1 , wherein the intake temperature detection signal is outputted to an external device as one of output signals including a signal other than the intake temperature detection signal. 7. The air flow measuring device according to claim 6 , wherein the intake temperature detection signal and the signal other than the intake temperature detection signal are sequentially transmitted as a serial signal to the external device, so that the output signals are outputted to the external device. 8. The air flow measuring device according to claim 6 , wherein the output signals are outputted to the external device as a frequency signal, with the intake temperature detection signal converted into one of a period and a duty ratio of the frequency signal, and the signal other than the intake temperature detection signal converted into the other one of the period and the duty ratio of the frequency signal.