The reason Ken and i asked about your pack voltage is because the PTC ceramic heaters are essentially a (non-linear) resistor and in normal operation will behave according to Ohm's Law: V=I*R. The heat output is proportional to the current (I). The R is fixed (until too high temperature is reached), so the current (heat) is proportional to the voltage. i've experienced this many times when i drive: lots of heat when i start out with a freshly charged 120v (nominal) pack, but when i discharge towards the end of my charge, the heat output is almost nil. So, if you have 19 bats (114 nominal), i suspect my heater won't work too well for you.
So what we (EVers) need is a PTC heater that will run at various pack voltages (think EVX prize idea:-). i got the idea for my heater from John Emde (he had made one for George Gladic). Because my pack voltage is reasonably high, a home-type heater designed to work from 120V AC (rms) will work (marginally) from 120V DC. There is no control of the amperage (except fan speed controlling air movement). This is like a dirty-heater (like a simple dirty-charger). Instead we need to apply a little more electronic control to get a better result. Using a much smaller version of a motor-controller, we can pulse-width-modulate (PWM) our pack voltage into a lower-voltage PTC heater element (say 72V). This would allow us to have more heat longer (at expense of range of course). Here is a company that will customize the PTC heater elements per customer specs:
http://www.specsensors.com/hph.aspSome links to better understand the PTC ceramic heaters we're using:
http://en.wikipedia.org/wiki/Positive_temperature_coefficienthttp://en.wikipedia.org/wiki/Heating_elementps. Don't forget to install heated seats... you can't beat the bang for the buck (or BTU from the kwh:-)
