Battery state detection device and vehicle device

What is claimed is: 1. A battery state detection device configured for detecting state of a battery, comprising: a controller; a load unit coupling to the battery, and receiving power from the battery; and a switch unit coupling between the battery and the load unit, and receiving control signals from the controller, wherein the controller controls the switch unit to disconnect or connect between the battery and the load unit with a predefined frequency, and wherein the controller switches the load unit to generate ripple voltages on the battery, and measure the ripple voltage of each battery cell, and determine if the battery is abnormal according to the ripple voltage of each battery cell; wherein the battery state detection device further comprises a first switch, a second switch, and a first resistor, a first terminal of the first switch is electrically coupled to a positive electrode of the battery, a second terminal of the first switch is electrically coupled to a negative electrode of the battery through a first capacitor, a first terminal of the second switch is electrically coupled to the first terminal of the first switch, and a second terminal of the second switch is electrically coupled to the first capacitor through the first resistor. 2. The battery state detection device according to claim 1 , wherein the switch unit comprises a third switch, and the positive electrode of the battery is electrically coupled to a first terminal of the third switch, a second terminal of the third switch is electrically coupled to a first terminal of the load unit, a third terminal of the third switch is electrically coupled to the controller, a second terminal of the load unit is electrically coupled to the negative electrode of the battery. 3. The battery state detection device according to claim 1 , wherein the switch unit comprises a third switch, and the load unit comprises a second resistor, and a thermistor, the negative electrode of the battery is grounded, the positive electrode of the battery is electrically coupled to a first terminal of the third switch, a second terminal of the third switch is electrically coupled to a first terminal of the second resistor, a second terminal of the second resistor is grounded through the thermistor, and a third terminal of the third switch is electrically coupled to the controller. 4. The battery state detection device according to claim 1 , wherein the switch unit comprises a third switch and a fourth switch, a first terminal of the third switch is electrically coupled to the controller, a second terminal of the third switch is electrically coupled to the positive electrode of the battery and a first terminal of a second capacitor, a third terminal of the third switch is electrically coupled to a second terminal of the fourth switch, a first terminal of the fourth switch is electrically coupled to the controller, a third terminal of the fourth switch is electrically coupled to the negative electrode of the battery and a second terminal of the second capacitor. 5. The battery state detection device according to claim 4 , wherein the switch unit further comprises a fifth switch and a sixth switch, a first terminal of the fifth switch is electrically coupled to the controller, a second terminal of the fifth switch is electrically coupled to the positive electrode of the battery, a third terminal of the fifth switch is electrically coupled to a second terminal of the sixth switch, a first terminal of the sixth switch is electrically coupled to the controller, a third terminal of the sixth switch is electrically coupled to the negative electrode of the battery. 6. The battery state detection device according to claim 5 , wherein the switch unit further comprises a seventh switch and an eighth switch, a first terminal of the seventh switch is electrically coupled to the controller, a second terminal of the seventh switch is electrically coupled to the positive electrode of the battery, a third terminal of the seventh switch is electrically coupled to a second terminal of the eighth switch, a first terminal of the eighth switch is electrically coupled to the controller, a third terminal of the eighth switch is electrically coupled to the negative electrode of the battery. 7. The battery state detection device according to claim 4 , wherein the load unit comprises a first inductor, a first node between the third terminal of the third switch and the second terminal of the fourth switch is electrically coupled to the first inductor of the load unit. 8. The battery state detection device according to claim 5 , wherein the load unit comprises a second inductor, a second node between the third terminal of the fifth switch and the second terminal of the sixth switch is electrically coupled to the second inductor of the load unit. 9. The battery state detection device according to claim 6 , wherein the load unit comprises a third inductor, a third node between the third terminal of the seventh switch and the second terminal of the eighth switch is electrically coupled to the third inductor of the load unit. 10. A vehicle device, comprising: a battery; and a battery state detection device coupling to the battery, and comprising: a controller; a load unit coupling to the battery, and receiving power from the battery; and a switch unit coupling between the battery and the load unit, and receiving control signals from the controller, wherein the controller controls the switch unit to disconnect or connect between the battery and the load unit with a predefined frequency, and wherein the controller switches the load unit to generate ripple voltages on the battery, and measure the ripple voltage of each battery cell, and determine if the battery is abnormal battery according to the ripple voltage of each battery cell; wherein the battery state detection device further comprises a first switch, a second switch, and a first resistor, a first terminal of the first switch is electrically coupled to a positive electrode of the battery, a second terminal of the first switch is electrically coupled to a negative electrode of the battery through a first capacitor, a first terminal of the second switch is electrically coupled to the first terminal of the first switch, and a second terminal of the second switch is electrically coupled to the first capacitor through the first resistor. 11. The vehicle device according to claim 10 , wherein the switch unit comprises a third switch, and the positive electrode of the battery is electrically coupled to a first terminal of the third switch, a second terminal of the third switch is electrically coupled to a first terminal of the load unit, a third terminal of the third switch is electrically coupled to the controller, a second terminal of the load unit is electrically coupled to the negative electrode of the battery. 12. The vehicle device according to claim 10 , wherein the switch unit comprises a third switch, and the load unit comprises a second resistor, and a thermistor, the negative electrode of the battery is grounded, the positive electrode of the battery is electrically coupled to a first terminal of the third switch, a second terminal of the third switch is electrically coupled to a first terminal of the second resistor, a second terminal of the second resistor is grounded through the thermistor, and a third terminal of the third switch is electrically coupled to the controller. 13. The vehicle device according to claim 10 , wherein the switch unit comprises a third switch and a fourth switch, a first terminal of the third switch is electrically coupled to the controller, a second terminal of