Bias circuit, image formation device and image forming apparatus

What is claimed is: 1. A bias circuit comprising: one or more first Zener diodes electrically coupled to a member provided in a replacement unit, the one or more first Zener diodes being coupled in series, wherein in response to removably connecting the replacement unit to a main unit including a power supply that has one or more second Zener diodes coupled in series, the first Zener diodes are electrically coupled to the second Zener diodes in parallel to change a bias voltage to be applied to the member, the bias voltage being supplied by the power supply, and wherein a total absolute value of breakdown voltages across the first Zener diodes is lower than a total absolute value of breakdown voltages across the second Zener diodes to: bring the second Zener diodes into a non-operation state; and bring the first Zener diodes into an operation state for supplying the bias voltage from the power supply to the member. 2. The bias circuit according to claim 1 , wherein each first Zener diode has an anode and a cathode, and wherein the member is electrically coupled to the anode of a given first Zener diode from among the one or more first Zener diodes, and the cathode of the given first Zener diode is electrically coupled to the power supply. 3. The bias circuit according to claim 2 , wherein the replacement unit includes a plurality of contacts for making electrical contact with the power supply, and wherein the cathode of the given first Zener diode is electrically coupled to a given contact from among the plurality of contacts. 4. The bias circuit according to claim 1 , wherein before the replacement unit is removably connected to the main unit, a bias voltage applied to the member is supplied by the power supply via a given second Zener diode from among the one or more second Zener diodes, and wherein a breakdown voltage drop across the given first Zener diode is lower than a breakdown voltage drop across the given second Zener diode. 5. The bias circuit according to claim 1 , wherein the total absolute value of breakdown voltages across the first Zener diodes, as well as the total absolute value of breakdown voltages across the second Zener diodes, are determined taking into account a tolerance for breakdown voltage and temperature characteristics of each of the first Zener diodes and the second Zener diodes. 6. An image formation device comprising: a latent image bearer; a toner bearer configured to develop a latent image on the latent image bearer by using toner carried on a surface of the toner bearer; a control member configured to contact with the toner bearer to control an amount of toner on the surface of the toner bearer; a bias circuit including one or more first Zener diodes coupled in series, the one or more first Zener diodes being electrically coupled to the control member, wherein in response to removably connecting the image formation device to an image forming apparatus including a power supply that has one or more second Zener diodes coupled in series, the one or more first Zener diodes are electrically coupled to the one or more second Zener diodes in parallel to change a bias voltage to be applied to the control member, the bias voltage being supplied by the power supply, and wherein a total absolute value of breakdown voltages across the first Zener diodes is lower than a total absolute value of breakdown voltages across the second Zener diodes to: bring the second Zener diodes into a non-operation state; and bring the first Zener diodes into an operation state for supplying the bias voltage from the power supply to the control member. 7. The image formation device according to claim 6 , wherein the changed bias voltage is lower than a bias voltage before the image formation device is removably connected to the image forming apparatus. 8. An image forming apparatus comprising the image formation device according to claim 7 . 9. An image forming apparatus comprising the image formation device according to claim 6 . 10. The image formation device according to claim 6 , wherein each first Zener diode has an anode and a cathode, and wherein the control member is electrically coupled to the anode of a given first Zener diode from among the one or more first Zener diodes, and the cathode of the given first Zener diode is electrically coupled to the power supply. 11. The image formation device according to claim 10 , further comprising a plurality of contacts for making electrical contact with the power supply, wherein the cathode of the given first Zener diode is electrically coupled to a given contact from among the plurality of contacts. 12. The image formation device according to claim 11 , wherein before the image formation device is removably connected to the image forming apparatus, a bias voltage applied to the control member is supplied by the power supply via a given second Zener diode from among the one or more second Zener diodes, and wherein a breakdown voltage drop across the given first Zener diode is lower than a breakdown voltage drop across the given second Zener diode. 13. The image formation device according to claim 6 , wherein the total absolute value of breakdown voltages across the first Zener diodes, as well as the total absolute value of breakdown voltages across the second Zener diodes, are determined taking into account a tolerance for breakdown voltage and temperature characteristics of each of the first Zener diodes and the second Zener diodes. 14. The image formation device according to claim 6 , wherein the toner is charged, and wherein the bias voltage has a same polarity as the toner. 15. The image formation device according to claim 14 , wherein the same polarity is a negative polarity.