1. A fixing apparatus of an image forming apparatus, comprising:
a heat generating member having a metal layer;
a first induction current generating device disposed close to the heat generating member;
a belt that is opposite to the heat generating member, is rotatably supported by a plurality of rollers, and comes in contact with the heat generating member; and
a pressing member that presses the belt to the heat generating member and forms a nip between the heat generating member and the belt at a time when the heat generating member and the belt come in contact with each other.
2. The fixing apparatus of the image forming apparatus according to claim 1, wherein the pressing member includes an auxiliary pressure member that is brought into contact with an inner periphery of the belt and a spring member that presses the auxiliary pressure member in a direction toward the heat generating member.
3. The fixing apparatus of the image forming apparatus according to claim 1, wherein a pressing force of the belt to the heat generating member by the pressing member forms a load distribution in a width of the nip.
4. The fixing apparatus of the image forming apparatus according to claim 3, wherein the pressing member includes an auxiliary pressure member that is brought into contact with an inner periphery of the belt and a spring member that presses the elastic member in a direction toward the heat generating member, and
hardness of the auxiliary pressure member varies in a rotation direction of the belt.
5. The fixing apparatus of the image forming apparatus according to claim 4, wherein the auxiliary pressure member is divided into a plurality of blocks in the rotation direction of the belt.
6. The fixing apparatus of the image forming apparatus according to claim 1, further comprising a second induction current generating device opposite to a metal roller as one of the plurality of rollers through the belt, wherein the second induction current generating device induction-heats the metal roller.
7. The fixing apparatus of the image forming apparatus according to claim 1, further comprising a movement mechanism to integrally and movably support the belt and the pressing member.
8. The fixing apparatus of the image forming apparatus according to claim 1, wherein the heat generating member includes a metal belt having the metal layer and an elastic roller disposed inside the metal belt and having an elastic layer.
9. The fixing apparatus of the image forming apparatus according to claim 1, wherein the heat generating member includes a plurality of rollers at least one of which has the metal layer and a second belt supported by the plurality of rollers.
10. A fixing apparatus of an image forming apparatus, comprising:
a heat generating member having a metal layer;
a first induction current generating device disposed close to the heat generating member;
a belt mechanism including a belt that is opposite to the heat generating member, is rotatably supported by a plurality of rollers, and comes in contact with the heat generating member, and a pressing member that presses the belt to the heat generating member at a time when the heat generating member and the belt comes in contact with each other and forms a nip between the heat generating member and the belt;
a movement mechanism that moves the belt mechanism to release a pressing force of the belt mechanism to the heat generating member; and
a second induction current generating device that is disposed around the belt and heats the belt by induction heating.
11. The fixing apparatus of the image forming apparatus according to claim 10, wherein the plurality of rollers includes an opposite roller disposed to be opposite to the heat generating member and a metal roller spaced from the heat generating member, and the second induction current generating device induction-heats the metal roller.
12. The fixing apparatus of the image forming apparatus according to claim 11, wherein the movement mechanism moves the belt mechanism while an axis of the metal roller is made a rotation axis, and spaces the belt from the heat generating member.
13. The fixing apparatus of the image forming apparatus according to claim 12, during a period when the belt is spaced from the heat generating member, the metal roller is induction-heated by the second induction current generating device.
14. The fixing apparatus of the image forming apparatus according to claim 11, wherein the movement mechanism moves the belt mechanism while an axis of the opposite roller is made a rotation center.
15. The fixing apparatus of the image forming apparatus according to claim 11, wherein the opposite roller is opposite to the heat generating member through a space.
16. The fixing apparatus of the image forming apparatus according to claim 10, wherein the heat generating member includes a metal belt having the metal layer and an elastic roller disposed inside the metal belt and including an elastic layer.
17. The fixing apparatus of the image forming apparatus according to claim 10, wherein the heat generating member includes a plurality of rollers at least one of which has the metal layer and a second belt supported by the plurality of rollers.
18. A fixing apparatus of an image forming apparatus, comprising:
a heat generating member having a metal layer;
a first induction current generating device disposed close to the heat generating member;
a belt mechanism including a belt that is opposite to the heat generating member, is rotatably supported by a plurality of rollers, and comes in contact with the heat generating member, and a pressing member that presses the belt to the heat generating member at a time when the heat generating member and the belt come in contact with each other and forms a nip between the heat generating member and the belt; and
a second induction current generating device that is disposed around the belt and heats the belt by induction heating;
wherein the heat generating member and the belt mechanism are unitized, the heat generating member is spaced from the first induction current generating device, and the belt mechanism is spaced from the second induction current generating device.
19. The fixing apparatus of the image forming apparatus according to claim 18, wherein the heat generating member and the belt mechanism which are unitized are integrally slid and moved in a vertical direction to axes of the plurality of rollers.
20. A fixing apparatus of an image forming apparatus, comprising:
a fixing member that nips and transports a fixed medium in a predetermined direction by a heat generating member having a metal layer and an opposite member that comes in pressure contact with the heat generating member, and fixes the fixed medium;
a first induction current generating device that is disposed close to the heat generating member and heats the metal layer;
a temperature sensor to detect a temperature of the fixing member; and
a control unit that corrects a detection result of the temperature sensor based on a correction value estimated from a temperature gradient characteristic of the fixing member and controls power supplied to the first induction current generating device.
21. The fixing apparatus of the image forming apparatus according to claim 20, wherein the correction value is a difference between the temperature gradient characteristic of the fixing member and a reference temperature gradient characteristic.
22. The fixing apparatus of the image forming apparatus according to claim 20, wherein the control unit further corrects the power supplied to the first induction current generating device based on a characteristic of the fixed medium.
23. The fixing apparatus of the image forming apparatus according to claim 22, wherein the characteristic of the fixed medium is at least one of a weight of the fixed medium, a thickness of the fixed medium, and a size of the fixed medium.
24. The fixing apparatus of the image forming apparatus according to claim 20, wherein the correction value is converted into a power value.
25. The fixing apparatus of the image forming apparatus according to claim 20, wherein the temperature gradient characteristic of the fixing member is a temperature gradient characteristic during a period of a spaced state of the heat generating member and the opposite member.
26. The fixing apparatus of the image forming apparatus according to claim 25, wherein the period of the spaced state is a period after warming-up is started and before the fixing member reaches a prerun temperature.
27. A fixing apparatus of an image forming apparatus, comprising:
a heat generating member having a metal layer;
a first induction current generating device disposed close to the heat generating member;
a belt that is opposite to the heat generating member, is rotatably supported by a plurality of rollers, and cooperates with the heat generating member to nip and transport a fixed member in a predetermined direction;
a second induction current generating device that is disposed around the belt and heats the belt by induction heating;
a pressing member that presses the belt to the heat generating member at a time of contact between the heat generating member and the belt and forms a nip between the heat generating member and the belt;
a heater temperature sensor to detect a surface temperature of the heat generating member;
a belt temperature sensor to detect a surface temperature of the belt; and
a control unit that corrects a detection result of the heater temperature sensor based on a correction value estimated from a temperature gradient characteristic of the heat generating member obtained by the heater temperature sensor in a spaced state of the heat generating member and the belt, and controls power supplied to the first induction current generating device.
28. The fixing apparatus of the image forming apparatus according to claim 27, wherein the correction value is a difference between the temperature gradient characteristic of the heat generating member and a reference temperature gradient characteristic.
29. The fixing apparatus of the image forming apparatus according to claim 27, wherein the control unit further corrects a detection result of the belt temperature sensor based on the correction value, and controls power supplied to the second induction current generating device.
30. The fixing apparatus of the image forming apparatus according to claim 29, wherein the control unit further corrects the power supplied to the first induction current generating device and the power supplied to the second induction current generating device based on a characteristic of the fixed medium.
31. The fixing apparatus of the image forming apparatus according to claim 30, wherein the characteristic of the fixed medium is at least one of a weight of the fixed medium, a thickness of the fixed medium, and a size of the fixed medium.
32. The fixing apparatus of the image forming apparatus according to claim 27, wherein the correction value is converted into a power value.
33. The fixing apparatus of the image forming apparatus according to claim 27, wherein the temperature gradient characteristic of the heat generating member is a temperature gradient characteristic during a period of a spaced state of the heat generating member and the opposite member.
34. The fixing apparatus of the image forming apparatus according to claim 33, wherein the period of the spaced state is a period after warming-up is started and before the fixing member reaches a prerun temperature.
35. A fixing apparatus of an image forming apparatus, comprising:
a fixing member that nips and transports a fixed medium in a predetermined direction by a heat generating member having a metal layer and an opposite member that comes in pressure contact with the heat generating member, and fixes the fixed medium;
a first induction current generating device that is disposed close to the heat generating member and heats the metal layer;
a temperature sensor to detect a temperature of the fixing member; and
a control unit that corrects a detection result of the temperature sensor based on a correction value estimated from a temperature gradient characteristic of the fixing member when the temperature detection result of the temperature sensor is 100\xb0 C. or lower, and controls power supplied to the first induction current generating device.
36. A control method of a fixing apparatus, comprising:
nipping and transporting a fixed medium in a predetermined direction by a heat generating member having a metal layer heated by a first induction current generating device and an opposite member that comes in pressure contact with the heat generating member, and fixing the fixed medium;
detecting a temperature of the fixing member;
obtaining a correction value for causing a temperature gradient characteristic of the fixing member to coincide with a reference temperature gradient characteristic; and
correcting a detection result of a temperature sensor based on the correction value and controlling power supplied to the first induction current generating device.
37. The control method of the fixing apparatus according to claim 36, wherein the correction value is obtained from a difference between the temperature gradient characteristic of the fixing member and the reference temperature gradient characteristic.
38. The control method of the fixing apparatus according to claim 36, wherein the temperature gradient characteristic of the fixing member is a temperature gradient characteristic in a period of a spaced state of the heat generating member and the opposite member.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A processing apparatus to direct operation of a set of digital-to-analog converters, comprising:
a load detection module connected to said set of digital-to-analog converters said load detection module being configured to detect an output voltage of each of said set of digital-to-analog converters to determine whether said each of said set of digital-to-analog converters is connected to an output device via a coupling capacitor, said output voltage being detected subsequent to a start of transmission of a pulse of electrical energy by said each of said set of digital-to-analog converters and prior to said coupling capacitor being substantially charged up by said pulse of electrical energy; and
a control module connected to said set of digital-to-analog converters and to said load detection module, said control module being configured to direct transmission of a signal to said output device via at least one of said set of digital-to-analog converters that is connected to said output device, said control module being configured to select a format of said signal based on how many of said set of digital-to-analog converters are connected to said output device.
2. The processing apparatus of claim 1, wherein said coupling capacitor has a charging time constant, said load detection module is configured to detect said output voltage at a measurement time, and said measurement time is defined with respect to said start of transmission of said pulse of electrical energy and is smaller than said charging time constant of said coupling capacitor.
3. The processing apparatus of claim 1, wherein said load detection module is configured to compare said output voltage with a reference voltage to determine whether said each of said set of digital-to-analog converters is connected to said output device.
4. The processing apparatus of claim 1 wherein said output device corresponds to a television set, said load detection module is configured to determine that a subset of said set of digital-to-analog converters is connected to said television set, and said control module is configured to direct said subset of said set of digital-to-analog converters to transmit a television signal to said television set.
5. The processing apparatus of claim 4, wherein said control module is configured to select a format of said television signal based on said subset of said set of digital-to-analog converters, and said format of said television signal corresponds to one of composite video format, S-video format, and component video format.
6. The processing apparatus of claim 4, wherein said control module is configured to direct a first digital-to-analog converter to transmit a first component of said television signal to said television set if said first digital-to-analog converter is connected to said television set, and said control module is configured to direct a second digital-to-analog converter to transmit a second component of said television signal to said television set if said second digital-to-analog converter is connected to said television set.
7. The processing apparatus of claim 1, further comprising:
a pulse generation module connected to said set of digital-to-analog converters, said pulse generation module being configured to direct said each of said set of digital-to-analog converters to transmit said pulse of electrical energy.