Methods and apparatus to provide closed loop control in a solar cell production system

What is claimed is: 1 . A photovoltaic cell production system, comprising: a firing furnace comprising a plurality of zones and a belt configured to transport photovoltaic cells through a sequence of the plurality of zones, the zones comprising firing elements configured to fire a metallization layer of photovoltaic cells by heating the photovoltaic cells in the zones; a photovoltaic cell tester configured to measure a property of the photovoltaic cells; and control circuitry configured to control the firing elements based on the property of the photovoltaic cells measured by the photovoltaic cell tester. 2 . The system as defined in claim 1 , wherein the control circuitry is configured to: control the firing elements based on a first heating profile for firing a first set of the photovoltaic cells, the first heating profile defining a first set of the respective temperatures of the zones; control the firing elements based on a second heating profile for firing a second set of the photovoltaic cells, the second heating profile defining a second set of the respective temperatures of the zones; receive first information representative of the property of the first set of photovoltaic cells from the photovoltaic cell tester; receive second information representative of the property of the first set of photovoltaic cells from the photovoltaic cell tester; and determine a third heating profile based on the first information, the second information, the first heating profile, and the second heating profile. 3 . The system as defined in claim 2 , wherein the control circuitry is configured to correlate the first information to the first set of the photovoltaic cells based on at least one of a travel speed of the belt, a distance from the firing furnace to the photovoltaic cell tester, a belt stop signal, a belt start signal, or a positive identification of the first set of the photovoltaic cells received from at least one of the photovoltaic cell tester, the firing furnace, or the cooling chamber. 4 . The system as defined in claim 1 , wherein the control circuitry is configured to control the firing elements based on a heating profile for firing a first set of the photovoltaic cells, the heating profile defining a set of the respective temperatures of the zones determined based on respective temperature measurements of the zones. 5 . The system as defined in claim 1 , further comprising thermocouples configured to measure the temperatures of the zones based on a combination of radiant heating and convective heating. 6 . The system as defined in claim 1 , wherein the property of the photovoltaic cells measured by the photovoltaic cell tester comprises at least one of an average value of the property for the photovoltaic cells or a statistical variance of the property for the photovoltaic cells. 7 . The system as defined in claim 1 , wherein the photovoltaic cell tester is configured to measure a plurality of properties of the photovoltaic cells, the plurality of properties comprising at least one of a cell conversion efficiency, an open-circuit voltage, a short-circuit current, a maximum cell output power, a cell output voltage at the maximum cell power output, a cell output current at the maximum cell power output, a fill factor, a cell diode property, a cell series resistance, or a cell shunt resistance. 8 . The system as defined in claim 1 , further comprising a cooling chamber, wherein the photovoltaic cell tester is configured to measure the property of the photovoltaic cells after the photovoltaic cells are cooled by the cooling chamber. 9 . The system as defined in claim 1 , wherein the firing elements comprise at least one of radiant heaters or convective heaters. 10 . A photovoltaic cell firing furnace, comprising: a plurality of zones comprising firing elements configured to fire a metallization layer of photovoltaic cells by heating the photovoltaic cells in the zones; a belt configured to transport photovoltaic cells through a sequence of the plurality of zones; and control circuitry configured to: receive feedback information comprising a measured property of the photovoltaic cells; and control the firing elements based on the property of the photovoltaic cells measured by the photovoltaic cell tester. 11 . The photovoltaic cell firing furnace as defined in claim 10 , wherein the feedback comprises, for the photovoltaic cells, at least one of cell conversion efficiency, open-circuit voltage, short-circuit current, maximum cell output power, cell output voltage at the maximum cell power output, cell output current at the maximum cell power output, fill factor, cell diode properties, cell series resistance, or cell shunt resistance. 12 . The photovoltaic cell firing furnace as defined in claim 11 , wherein the control circuitry is configured to: control the firing elements based on a first heating profile for firing a first set of the photovoltaic cells, the first heating profile defining a first set of the respective temperatures of the zones; control the firing elements based on a second heating profile for firing a second set of the photovoltaic cells, the second heating profile defining a second set of the respective temperatures of the zones; receive first information representative of the property of the first set of photovoltaic cells from a photovoltaic cell tester; receive second information representative of the property of the first set of photovoltaic cells from the photovoltaic cell tester; and determine a third heating profile based on the first information, the second information, the first heating profile, and the second heating profile. 13 . The photovoltaic cell firing furnace as defined in claim 12 , wherein the control circuitry is configured to correlate the first information to the first set of the photovoltaic cells based on at least one of a travel speed of the belt, a distance from the firing furnace to the photovoltaic cell tester, a belt stop signal, a belt start signal, or a positive identification of the first set of the photovoltaic cells received from at least one of the photovoltaic cell tester, the firing furnace, or the cooling chamber. 14 . A photovoltaic cell tester, comprising: a test fixture configured to measure a property of a fired photovoltaic cell; and control circuitry configured to transmit the measured property to a photovoltaic cell firing furnace as feedback information associated with the fired photovoltaic cell. 15 . The photovoltaic cell tester as defined in claim 11 , wherein the test fixture is configured to measure at least one of cell conversion efficiency, open-circuit voltage, short-circuit current, maximum cell output power, cell output voltage at the maximum cell power output, cell output current at the maximum cell power output, fill factor, cell diode properties, cell series resistance, or cell shunt resistance as the property.