Electrochromic apparatus, optical filter, imaging apparatus, lens unit, window member, and method of driving an electrochromic apparatus

What is claimed is: 1. An electrochromic apparatus, comprising: an electrochromic element comprising a pair of electrodes and an electrochromic layer disposed between the pair of electrodes; and drive circuits connected to the electrochromic element, the drive circuits comprising a drive circuit A and a drive circuit B, wherein, when no voltage is applied in a pulse width modulation (PWM) drive of the drive circuit A, a resistance value of the drive circuit A is larger than a resistance value of the electrochromic element, and wherein, when no voltage is applied in a PWM drive of the drive circuit B, the pair of electrodes is short-circuited. 2. The electrochromic apparatus according to claim 1 , wherein, when no voltage is applied in the PWM drive of the drive circuit A, the drive circuit A is an open circuit. 3. The electrochromic apparatus according to claim 1 , further comprising a determination unit configured to determine which of the drive circuit A and the drive circuit B is to be used. 4. The electrochromic apparatus according to claim 1 , wherein, when tA is less than ts×0.9, the drive circuit B is to be used, and when tA is equal to or larger than ts×0.9, the drive circuit A is to be used, where tA is the voltage applying period of the drive circuit A to maintain a certain absorbance, and ts is a response time before the effective voltage of the element being saturated. 5. The electrochromic apparatus according to claim 1 , wherein the drive circuit B is used when a visible light transmittance of the electrochromic element is to be set low. 6. The electrochromic apparatus according to claim 1 , wherein an electrochromic element has at least one side of plural anodic materials and plural cathodic materials, where the largest difference of the anodic electrical potential of the plural anodic materials or the cathodic electrical potential of the plural cathodic materials is more than 20 mV. 7. An optical filter, comprising: the electrochromic apparatus according to claim 1 ; and an active element connected to the electrochromic apparatus. 8. An imaging apparatus, comprising: the electrochromic apparatus according to claim 1 ; and a light receiving element configured to receive light that has been transmitted through an optical filter. 9. A lens unit, comprising: an optical system comprising a plurality of lenses; and the electrochromic apparatus according to claim 1 . 10. A window member, comprising the electrochromic apparatus according to claim 1 . 11. A method of driving an electrochromic apparatus, the electrochromic apparatus comprising: an electrochromic element comprising a pair of electrodes and an electrochromic layer disposed between the pair of electrodes; and drive units connected to the electrochromic element, the drive units comprising a drive unit A and a drive unit B, the method comprising using one of the drive unit A and the drive unit B, the drive unit A comprising a unit configured to connect, when no voltage is applied in a pulse width modulation (PWM) drive of the drive unit A, the electrochromic element to a resistor having a resistance value larger than a resistance value of the electrochromic element, and the drive unit B comprising a unit configured to short-circuit the pair of electrodes when no voltage is applied in a PWM drive of the drive unit B. 12. The method of driving an electrochromic apparatus according to claim 11 , wherein the drive unit A comprises a unit configured to switch a drive circuit to an open circuit when no voltage is applied in the PWM drive of the drive unit A. 13. The method of driving an electrochromic apparatus according to claim 11 , wherein the drive unit B is used when transmittance of the electrochromic element is to be set low.