Why PWM?

The technology for solar photovoltaic battery charge controllers has advanced dramatically over the past five years. The most exciting new technology, PWM charging, has become very popular. Some Frequently Asked Questions about PWM battery charging are addressed here.

What is PWM?
Pulse Width Modulation (PWM) is the most effective means to achieve constant voltage battery charging by switching the solar system controller’s power devices. When in PWM regulation, the current from the solar array tapers according to the battery’s condition and recharging needs.

Why is there so much
excitement about PWM?
Charging a battery with a solar system is a unique and difficult challenge. In the "old days", simple on-off regulators were used to limit battery outgassing when a solar panel produced excess energy. However, as solar systems matured it became clear how much these simple devices interfered with the charging process.

The history for on-off regulators has been early battery failures, increasing load disconnects, and growing user dissatisfaction. PWM has recently surfaced as the first significant advance in solar battery charging.

PWM solar chargers use technology similar to other modern high quality battery chargers. When a battery voltage reaches the regulation setpoint, the PWM algorithm slowly reduces the charging current to avoid heating and gassing of the battery, yet the charging continues to return the maximum amount of energy to the battery in the shortest time. The result is a higher charging efficiency, rapid recharging, and a healthy battery at full capacity.

In addition, this new method of solar battery charging promises some very interesting and unique benefits from the PWM pulsing. These include:

Ability to recover lost battery capacity and desulfate a battery.
Dramatically increase the charge acceptance of the battery.
Maintain high average battery capacities (90% to 95%) compared to on-off regulated state-of-charge levels that are typically 55% to 60%.
Equalize drifting battery cells.
Reduce battery heating and gassing.
Automatically adjust for battery aging.
Self-regulate for voltage drops and temperature effects in solar systems.

These benefits are discussed in more detail in the following addendum.

How does this technology help me?
The benefits noted above are technology driven. The more important question is how the PWM technology benefits the solar system user. Jumping from a 1970’s technology into the new millennium offers:

Longer battery life:
reducing the costs of the solar system
reducing battery disposal problems
More battery reserve capacity:
increasing the reliability of the solar system
reducing load disconnects
opportunity to reduce battery size to lower the system cost
Greater use of the solar array energy:
get 20% to 30% more energy from your solar panels for charging
stop wasting the solar energy when the battery is only 50% charged
opportunity to reduce the size of the solar array to save costs
Greater user satisfaction:
get more power when you need it for less money!!

Are all of these benefits
tested and proven?
A great deal of testing and data supports the benefits of PWM. More information is attached that describes the technology and various studies. Morningstar will continue our ongoing test programs to refine the PWM charging technology. Over time, each of these benefits will be improved and more clearly defined with numbers and graphs.

Are all PWM chargers the same?
Buyer beware! Many solar charge controllers that simply switch FETs differently than the on-off algorithm claim to be a PWM charger. Only a few controllers are actually using a Pulse Width Modulated (PWM) constant voltage charging algorithm. The rest are switching FETs with various algorithms that are cheaper and less effective. Morningstar was awarded a patent in 1997 for a highly effective battery charging algorithm based on true PWM switching and constant voltage charging. All Morningstar products use this patented algorithm.