Efficient thermoelectric controller
First Claim
1. A system comprisinga thermo-electric cooler, a monitor which outputs a signal having a level indicative of the temperature of the thermo-electric cooler, first apparatus that responds to the monitor signal and outputs a signal indicative of a difference between the temperature of the thermo-electric cooler and a desired thermo-electric cooler temperature, a signal generator for outputting a signal having a level that varies as a function of the level of a control signal derived from at least the level of the output signal and the value of the difference signal, second apparatus connected to first and second inputs of the thermoelectric cooler such that when the level of the difference signals is below a first reference signal connects the generated signal across said the first and second inputs as a signal of a first polarity to cause the thermo-electric cooler to enter a heating cycle and such that when the level of the difference signal is below a second reference signal connects the generated signal across said second and first inputs in reverse order as a signal of a second polarity to cause the thermo-electric cooler to enter a cooling cycle, and a dump circuit which shunts the level of the signal that the signal generator outputs to a predetermined level when the level of the difference signal is between the first and second reference levels.
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Accused Products
Abstract
The temperature of a thermo-electric cooler that is used to cool a laser is effectively controlled using a monitor which accurately and continuously measures the temperature of the thermo-electric cooler and using apparatus that determines the difference between the measured temperature and a desired thermo-electric cooler temperature. A discriminator circuit causes the thermo-electric cooler to enter (a) a heating cycle when such difference is below a first reference level or (b) a cooling cycle when such difference reaches a reaches a second reference level. Power consumption within the associated cooling/heating system is also accurately controlled using a pulse width modulated power supply to provide the voltage signal that drives the thermoelectric cooler.
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Citations
12 Claims
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1. A system comprising
a thermo-electric cooler, a monitor which outputs a signal having a level indicative of the temperature of the thermo-electric cooler, first apparatus that responds to the monitor signal and outputs a signal indicative of a difference between the temperature of the thermo-electric cooler and a desired thermo-electric cooler temperature, a signal generator for outputting a signal having a level that varies as a function of the level of a control signal derived from at least the level of the output signal and the value of the difference signal, second apparatus connected to first and second inputs of the thermoelectric cooler such that when the level of the difference signals is below a first reference signal connects the generated signal across said the first and second inputs as a signal of a first polarity to cause the thermo-electric cooler to enter a heating cycle and such that when the level of the difference signal is below a second reference signal connects the generated signal across said second and first inputs in reverse order as a signal of a second polarity to cause the thermo-electric cooler to enter a cooling cycle, and a dump circuit which shunts the level of the signal that the signal generator outputs to a predetermined level when the level of the difference signal is between the first and second reference levels.
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5. A system comprising
a thermo-electric cooler, a monitor which outputs a signal having a level indicative of the temperature of the thermo-electric cooler, first apparatus that responds to the monitor signal and outputs a signal indicative of a difference between the temperature of the thermo-electric cooler and a desired thermo-electric cooler temperature a discriminator circuit having first and second reference levels such that when the level of the difference signal is below the first reference level then the discriminator circuit causes the thermoelectric cooler to enter a heating cycle and such that when the level of the difference signal reaches the second reference level then the discriminator circuit causes the thermo-electric cooler to enter a cooling cycle, an H-bridge circuit connected to an input of the thermo-electric cooler, said H-bridge circuit responsive to receipt of a first signal via a first path from the discriminator circuit extends a voltage signal of a first polarity to the thermo-electric cooler to cause the thermo-electric cooler to enter the heating cycle and responsive to receipt of the first signal via a second path from the discriminator circuit extends the voltage signal of the first polarity to the thermo-electric cooler as a voltage signal of a second polarity to cause the thermo-electric cooler to enter the cooling cycle, a pulse-width-modulated power supply whose output voltage signal varies as a function of a control signal derived from the output voltage the absolute value of the difference signal and a band-gap voltage signal, and wherein the output voltage signal is supplied directly to the H-bridge as the voltage signal of the first polarity and wherein when the level of the difference signal is between the first and second reference levels, then the discriminator activates a dump circuit which shunts to ground level the level of the voltage signal that the pulse-width-modulated power supply outputs and wherein the system further comprises a clamp circuit which clamps the level of the control signal supplied to the pulse-width-modulated power supply between third and fourth reference levels.
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6. A system comprising
a thermoelectric cooler, apparatus which measures the temperature of the thermo-electric cooler and outputs a difference signal indicative of a difference between the measured temperature and a desired temperature for the thermoelectric cooler, and a pulse-width-modulated power supply that varies the level of an output voltage signal as a function of a control signal derived from at least the output voltage level, and the absolute value of the difference signal, and wherein the output voltage signal is supplied to the thermo-electric cooler as a voltage signal of (a) a first polarity to cause the thermoelectric cooler to enter a heating cycle or (b) a second polarity to cause the thermo-electric cooler to enter a cooling cycle, and a dump circuit which shunts the level of the voltage signal that the power supply outputs to a predetermined level when the level of the difference signal is between first and second reference levels.
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12. A system comprising
a thermo-electric cooler, apparatus which measures the temperature of the thermoelectric cooler and outputs a difference signal indicative of a difference between the measured temperature and a desired temperature for the thermoelectric cooler, a pulse-width-modulated power supply that varies the level of an output voltage signal as a function of a control signal derived from at least the output voltage level, and the absolute value of the difference signal, and wherein the output voltage signal is supplied to the thermoelectric cooler as a voltage signal of (a) a first polarity to cause the thermo-electric cooler to enter a heating cycle or (b) a second polarity to cause the thermo-electric cooler to enter a cooling cycle, and a clamp circuit which clamps the level of the control signal supplied to the pulse-width-modulated power supply between third and fourth reference levels.
Specification