Microfluidic controller and detector system with self-calibration
First Claim
1. A method of calibrating a plurality of electrical source channels, comprising:
- generating a first electrical reference signal at a reference channel;
applying the first electrical reference signal to each of the electrical source channels to generate a first electrical source signal at each of the electrical source channels;
measuring a first electrical value at each of the reference and electrical source channels;
generating a second electrical reference signal at the reference channel;
applying the second electrical reference signal to each of the electrical source channels to generate a second electrical source signal at each of the electrical source channels, the second electrical reference signal and the second electrical source signal being different from the first electrical reference signal and the first electrical source signal, respectively;
measuring a second electrical value at each of the reference and electrical source channels; and
determining a readout calibration factor for each of the electric source channels as a function of a ratio of differences between the first and second measured reference values and between the first and second measured source values.
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Accused Products
Abstract
A microfluidic controller and detector system and method for performing screening assays are disclosed. The microfluidic controller and detector system comprises a fluidic chip that includes at least two intersecting channels and a detection zone, a fluid direction system comprising an electrical interface configured for electrical contact with the at least two intersecting channels, an optics block having an objective lens disposed adjacent the detection zone, and a control system coupled to the optics block and adapted to receive and analyze data from the optics block. The electrical interface generally includes electrodes configured for electrical contact with the intersecting channels and coupled to electrode channels for supplying electrical input to the electrodes. A reference channel is optionally provided to calibrate the electrode channels.
121 Citations
14 Claims
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1. A method of calibrating a plurality of electrical source channels, comprising:
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generating a first electrical reference signal at a reference channel;
applying the first electrical reference signal to each of the electrical source channels to generate a first electrical source signal at each of the electrical source channels;
measuring a first electrical value at each of the reference and electrical source channels;
generating a second electrical reference signal at the reference channel;
applying the second electrical reference signal to each of the electrical source channels to generate a second electrical source signal at each of the electrical source channels, the second electrical reference signal and the second electrical source signal being different from the first electrical reference signal and the first electrical source signal, respectively;
measuring a second electrical value at each of the reference and electrical source channels; and
determining a readout calibration factor for each of the electric source channels as a function of a ratio of differences between the first and second measured reference values and between the first and second measured source values. - View Dependent Claims (2, 3, 4, 5, 6, 7)
shutting off all source channels and reference channel;
measuring an offset voltage and current value at each of the reference and source channels; and
determining a calibration offset value as a function of the measured offset voltages and currents.
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6. The method of calibrating according to claim 5, further comprising determining a setting calibration offset as a function of one of the reference signals and a function of a difference between one of the measured source channel values and one of the measured offset source channel values.
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7. The method of calibrating according to claim 5, further comprising determining a setting reference calibration offset as a function of one of the reference signals and a function of a difference between one of the measured reference channel values and one of the measured offset reference channel values.
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8. A method for direction of material in a fluidic chip, the chip including at least one fluidic channel extending between two electronic contact points, each contact point adapted to be in contact with an electrical source channel, comprising:
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calibrating the electrical source channels using a reference channel; and
applying an electrical direction signal to at least one of said electrical source channels using results of said calibrating, wherein said calibrating comprises;
generating a first electrical reference signal at the reference channel;
applying the first electrical reference signal to each of the electrical source channels to generate a first electrical source signal at each of the electrical source channels;
measuring a first electrical value at each of the reference and electrical source channels;
generating a second electrical reference signal at the reference channel;
applying the second electrical reference signal to each of the electrical source channels to generate a second electrical source signal at each of the electrical source channels, the second electrical reference signal and the second electrical source signal being different from the first electrical reference signal and the first electrical source signal, respectively;
measuring a second electrical value at each of the reference and electrical source channels; and
determining a readout calibration factor for the electric source channels as a function of a ratio of differences between the first and second measured reference values and between the first and second measured source values. - View Dependent Claims (9, 10, 11, 12, 13, 14)
shutting off all source channels and reference channel;
measuring an offset voltage and current value at each of the reference and source channels; and
determining a calibration offset value as a function of the measured offset voltages and currents.
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13. The method for direction of material in a fluidic chip according to claim 12, further comprising determining a setting calibration offset as a function of one of the reference signals and a function of a difference between one of the measured source channel values and one of the measured offset source channel values.
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14. The method for direction of material in a fluidic chip according to claim 12, further comprising determining a setting reference calibration offset as a function of one of the reference signals and a function of a difference between one of the measured reference channel values and one of the measured offset reference channel values.
Specification