Methods of anodizing valve metal anodes
First Claim
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1. A method of anodizing a pressed and sintered valve metal anode to a target formation potential, comprising:
- a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system;
b) subjecting the anode-electrolyte system to pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time; and
c) agitating the electrolyte, wherein said a anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process, and wherein the agitating step comprises subjecting the electrolyte to sound energy at a frequency in the range from ultrasonic frequencies to audible frequencies during selected time intervals of the waveform period.
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Abstract
Methods for anodizing sintered valve metal anodes for use in wet electrolytic capacitors implemented in implantable medical devices (IMDs). The methods generally include immersing a pressed valve metal anode in an anodizing electrolyte and developing an anode-electrolyte system. Subsequently, subjecting the anode-electrolyte system to a potential that is ramped up to a target voltage in a pulsed fashion and delivering voltage potential pulses to the anode. The pulses are preferably decreased in pulse width as the potential increases. The pulse width of the applied pulses is preferably defined by means of a duty, such that the applied pulse duty cycle is substantially 100% initially and declines over the formation time as the formation voltage increases to the target potential to substantially 1.0% or less. The pulses are preferably applied for a hold time following achievement of the target formation potential, as the pulse current declines toward zero current flow.
61 Citations
23 Claims
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1. A method of anodizing a pressed and sintered valve metal anode to a target formation potential, comprising:
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system;
b) subjecting the anode-electrolyte system to pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time; and
c) agitating the electrolyte, wherein said a anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process, and wherein the agitating step comprises subjecting the electrolyte to sound energy at a frequency in the range from ultrasonic frequencies to audible frequencies during selected time intervals of the waveform period.
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2. A method of anodizing a pressed and sintered valve metal anode to a target formation potential, comprising:
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system;
b) subjecting the anode-electrolyte system to pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time; and
c) agitating the electrolyte, wherein said anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process, and wherein the agitating step comprises subjecting the electrolyte to stirring induced by a mechanical impeller and to sound energy at a frequency in the range from ultrasonic frequencies to audible frequencies during selected time intervals of the waveform period.
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3. A method of anodizing a pressed and sintered valve metal anode to a target formation potential, comprising;
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system; and
b) subjecting the anode-electrolyte system to pulses of electrical potential that arm ramped up from a starting voltage to a target voltage over a formation time, wherein said anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process, and further comprising the step of agitating the electrolyte only during time periods between pulses of electrical potential. - View Dependent Claims (4, 5, 6)
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7. A method of anodizing a pressed end sintered valve metal anode to a target formation potential, comprising:
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system; and
b) subjecting the anode-electrolyte system to pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time;
wherein said anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process, and wherein the subjecting step further comprises;
delivering the pulses of electrical potential having a pulse amplitude, and pulse width and a duty cycle to the anode-electrolyte system; and
modifying the duty cycle of the potential pulses as the pulse amplitude approaches the target voltage.- View Dependent Claims (8)
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9. A method of anodizing a pressed and sintered valve metal anode to target formation potential, comprising:
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system; and
b) subjecting the anode-electrolyte system to pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time;
wherein said anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process, and wherein the subjecting step further comprises;
delivering the pulses of electrical potential having a pulse amplitude, and a frequency to the anode-electrolyte system; and
modifying the pulse width and the pulse frequency as the pulse amplitude approaches the target voltage.- View Dependent Claims (10, 11, 12)
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13. A method of anodizing a pressed and sintered valve metal anode to a target formation potential, comprising:
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system; and
b) subjecting the anode-electrolyte system to pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time;
wherein said anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process,and wherein the subjecting step further comprises;
delivering the potential pulses having a pulse amplitude, and pulse width, and a frequency to the anode-electrolyte system; and
decreasing the pulse width and decreasing the frequency of the pulses of electrical potential as the pulse amplitude approaches the target voltage. - View Dependent Claims (14, 15, 16)
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17. A method of anodizing a pressed and sintered valve metal anode to a target formation potential, comprising;
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system; and
b) subjecting the anode-electrolyte system to pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time;
less during the anodizing process, and wherein the subjecting step further comprises;
delivering the pulses of electrical potential having pulse amplitudes and pulse widths to the anode-electrolyte system; and
decreasing the pulse width of the potential pulses as the pulse amplitude approaches the target voltage. - View Dependent Claims (18, 19, 20)
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21. A method of anodizing a pressed and sintered valve metal anode to a target formation potential, comprising:
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system; and
b) subjecting the anode-electrolyte system to pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time;
wherein said anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process, and wherein the subjecting step further comprises delivering the pulses of electrical potential to the anode-electrolyte system for a predetermined hold time after achievement of the target voltage until the current flow through the anode-electrolyte system has dropped to a predetermined level, and further comprising the step of agitating the electrolyte in the time between delivered pulses of electrical potential. - View Dependent Claims (22)
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23. A method of anodizing a pressed and sintered valve metal anode to a target formation potential, comprising;
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a) immersing the pressed valve metal anode in an anodizing electrolyte to wet the anode and develop an anode-electrolyte system; and
b) subjecting the anode-electrolyte system to potential pulses of electrical potential that are ramped up from a starting voltage to a target voltage over a formation time;
wherein said anodizing electrolyte is maintained at about 40 degrees Celsius or less during the anodizing process, and wherein the subjecting step further comprises;
delivering the pulses of electrical potential and current pulses having pulse amplitudes and pulse widths to the anode-electrolyte system; and
decreasing the peak height of the current pulses as the amplitude of the pulses of electrical potential approach the target voltage.
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Specification
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Current AssigneeMedtronic Incorporated (Medtronic Plc)
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Original AssigneeMedtronic Incorporated (Medtronic Plc)
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InventorsHossick-Schott, Joachim
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Primary Examiner(s)King, Roy
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Assistant Examiner(s)Leader, William T.
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Application NumberUS10/058,437Publication NumberTime in Patent Office988 DaysField of Search205/106, 205/107, 205/108, 205/148, 205/322US Class Current205/108CPC Class CodesC25D 11/024 Anodisation under pulsed or...C25D 11/26 of refractory metals or all...C25D 5/18 Electroplating using modula...H01G 9/0032 formation of the dielectric...
