Battery monitoring device

What is claimed is: 1. A battery monitoring device comprising: a plurality of monitors connected in series that each monitor a state of a battery; and a controller that is connected in series to the plurality of monitors connected in series and that communicates with the plurality of monitors by using identification information set for the plurality of monitors, wherein when any one monitor of the plurality of monitors receives a first setting signal transmitted from one of a previous monitor upstream in the series or from the controller, the one monitor receiving the first setting signal transmits the first setting signal to a subsequent monitor downstream in the series or to the controller when the subsequent monitor is a last monitor in the series, in a case when it is not possible for the one monitor to receive the first setting signal from the previous monitor upstream in the series or from the controller, the one monitor transmits a second setting signal, which indicates an occurrence of a communication abnormality and which is different from the first setting signal, to the subsequent monitor downstream in the series or to the controller when the subsequent monitor is the last monitor in the series, and when receiving the second setting signal transmitted from the previous monitor upstream in the series, the one monitor changes the received second setting signal so as to transmit the changed second setting signal to the subsequent monitor in the series or to the controller when the subsequent monitor is the last monitor in the series, and the controller identifies an occurrence location of a communication abnormality in accordance with the second setting signal transmitted from the last monitor in the series. 2. The battery monitoring device according to claim 1 , wherein upon receiving the first setting signal, each of the plurality of monitors changes the received first setting signal so as to transmit the changed first setting signal to the subsequent monitor downstream in the series or to the controller when the subsequent monitor is the last monitor in the series, and sets identification information corresponding to the received first setting signal as identification information thereof, and upon receiving the second setting signal, each of the plurality of monitors refrains from setting identification information thereof. 3. The battery monitoring device according to claim 2 , wherein upon receiving the second setting signal transmitted from the last monitor in the series, the controller transmits the second setting signal to a first monitor in the series. 4. The battery monitoring device according to claim 1 , wherein upon receiving the first setting signal, each of the plurality of monitors changes the received first setting signal so as to transmit the changed first setting signal to the subsequent monitor downstream in the series or to the controller when the subsequent monitor is the last monitor in the series, and upon not receiving the second setting signal, each of the plurality of monitor sets identification information corresponding to the received first setting signal as identification information thereof after a prescribed period of time has elapsed. 5. The battery monitoring device according to claim 1 , wherein upon receiving the first setting signal transmitted from the last monitor in the series, the controller shifts to an identification information setting process. 6. The battery monitoring device according to claim 5 , wherein upon receiving the first setting signal transmitted from the last monitor in the series, the controller transmits a third setting signal for an identification information setting process to the first monitor in the series, and upon receiving the third setting signal, each of the plurality of monitors changes the received third setting signal so as to transmit the changed third setting signal to the subsequent monitor downstream in the series or to the controller when the subsequent monitor is the last monitor in the series, and sets identification information corresponding to the received third setting signal as identification information thereof. 7. The battery monitoring device according to claim 1 , wherein each of the plurality of monitors changes DUTY ratio, frequency, voltage or number of pulses per unit time of the received second setting signal so as to transmit the changed second setting signal to the subsequent monitor downstream in the series or to the controller when the subsequent monitor is the last monitor in the series. 8. The battery monitoring device according to claim 2 , wherein each of the plurality of monitors changes DUTY ratio, frequency, voltage or number of pulses per unit time of the received first setting signal so as to transmit the changed first setting signal to the subsequent monitor downstream in the series or to the controller when the subsequent monitor is the last monitor in the series. 9. The battery monitoring device according to claim 6 , wherein each of the plurality of monitors changes DUTY ratio, frequency, voltage or number of pulses per unit time of the received third setting signal so as to transmit the changed third setting signal to the subsequent monitor downstream in the series or to the controller when the subsequent monitor is the last monitor in the series. 10. The battery monitoring device according to claim 4 , wherein each of the plurality of monitors changes DUTY ratio, frequency, voltage or number of pulses per unit time of the received first setting signal so as to transmit the changed first setting signal to the subsequent monitor downstream in the series or to the controller when the subsequent monitor is the last monitor in the series.