Temperature compensated power amplifier gain

What is claimed is: 1. A power amplifier system comprising: a power amplifier configured to amplify a wireless local area network signal; a sampling circuit configured to capture an indication of initial temperature of the power amplifier when the power amplifier is energized, and a temperature compensation circuit configured to generate a compensation signal based on a temperature coefficient that is temperature dependent and an indication of temperature change relative to the initial temperature of the power amplifier, and to cause a gain of the power amplifier to be adjusted based on the compensation signal, the temperature compensation circuit including a multiplier configured to multiply the indication of the temperature change by the temperature coefficient. 2. The power amplifier system of claim 1 wherein the indication of the initial temperature is captured just after the power amplifier is energized. 3. The power amplifier system of claim 1 wherein the indication of the initial temperature is stored in a sample-and-hold circuit. 4. The power amplifier system of claim 1 wherein the temperature compensation circuit is configured to adjust a reference signal based on the compensation signal to provide a bias signal. 5. The power amplifier system of claim 4 wherein the power amplifier is a multi-stage power amplifier, and a first stage of the power amplifier is configured to receive the bias signal to correct for gain drop over time for the power amplifier. 6. The power amplifier system of claim 1 wherein the sampling circuit is configured to sample a value from a temperature sensor to provide the indication of the initial temperature of the power amplifier. 7. The power amplifier system of claim 6 wherein the temperature sensor includes a diode. 8. The power amplifier system of claim 1 wherein the temperature compensation circuit includes a temperature coefficient circuit configured to generate the temperature coefficient based on an indication of average temperature of the power amplifier. 9. The power amplifier system of claim 8 wherein the temperature coefficient circuit includes a first digital register and a second digital register, the temperature coefficient circuit configured to generate the temperature coefficient based on values in the first digital register and the digital second register. 10. A power amplifier system comprising: a power amplifier configured to amplify a wireless local area network signal; a sampling circuit configured to capture an indication of initial temperature of the power amplifier when the power amplifier is energized, and a temperature compensation circuit configured to generate a compensation signal based on a temperature coefficient that is temperature dependent and an indication of temperature change relative to the initial temperature of the power amplifier, and to cause a gain of the power amplifier to be adjusted based on the compensation signal, the temperature compensation circuit including a temperature coefficient circuit that includes a first digital register configured to store a base coefficient value and a second digital register configured to store a value to set a rate of change of the temperature coefficient over temperature, the temperature coefficient circuit configured to generate the temperature coefficient based on an indication of average temperature of the power amplifier, which is based on the values in the first digital register and the digital second register. 11. The power amplifier system of claim 10 wherein the power amplifier and a temperature sensor are implemented on a first semiconductor die and the temperature compensation circuit is implemented on a second semiconductor die. 12. A method of adjusting a gain of a power amplifier, the method comprising: generating a temperature coefficient based on an indication of average temperature of a power amplifier; storing an indication of initial temperature of the power amplifier when the power amplifier is energized; generating a compensation signal based on the temperature coefficient and an indication of a change in temperature of the power amplifier relative to the initial temperature; and modifying a reference current based on the compensation signal and generating a bias voltage from the modified reference current, the bias voltage provided to a first stage of the power amplifier to adjust a gain of the power amplifier that includes multiple stages. 13. A method of adjusting a gain of a power amplifier, the method comprising: generating a temperature coefficient based on an indication of average temperature of a power amplifier; storing an indication of initial temperature of the power amplifier when the power amplifier is energized; multiplying the temperature coefficient and an indication of a change in temperature of the power amplifier relative to the initial temperature to generate a compensation signal; and adjusting a gain of the power amplifier based on the compensation signal. 14. A method of adjusting a gain of a power amplifier, the method comprising: multiplying an indication of average temperature of a power amplifier by a rate to generate a multiplication result and subtracting the multiplication result from a base temperature coefficient to generate a temperature coefficient; storing an indication of initial temperature of the power amplifier when the power amplifier is energized; generating a compensation signal based on the temperature coefficient and an indication of a change in temperature of the power amplifier relative to the initial temperature; and adjusting a gain of the power amplifier based on the compensation signal. 15. The method of claim 14 further comprising capturing the indication of the initial temperature of the power amplifier just after the power amplifier is energized and storing the indication of the initial temperature in a sample and hold circuit. 16. A wireless communication device comprising: an antenna configured to transmit an amplified radio frequency signal; and a power amplifier system including a power amplifier configured to provide the amplified radio frequency signal, a sampling circuit configured to capture an indication of initial temperature of the power amplifier when the power amplifier is energized, and a temperature compensation circuit configured to generate a compensation signal based on a temperature coefficient that is temperature dependent and an indication of temperature change relative to the initial temperature of the power amplifier, and to cause a gain of the power amplifier to be adjusted based on the compensation signal, the temperature compensation circuit including a temperature coefficient circuit configured to generate the temperature coefficient based on an indication of average temperature of the power amplifier. 17. The wireless communication device of claim 16 wherein the temperature coefficient circuit includes a first digital register configured to store a base coefficient and a second digital register configured to store a value to set a rate of change of the temperature coefficient over temperature. 18. The wireless communication device of claim 17 wherein the temperature coefficient circuit further includes a multiplier configured to multiply the indication of average temperature of the power amplifier by the value to generate a multiplication result, and a subtractor configured to subtract the multiplication result from the base coefficient. 19. The method of claim 12 further comprising sampling a value