Charging details, 1 charging algorithm, 2 maximum power point tracking – Campbell Scientific PS150/CH150 12 V Charging Regulators User Manual

PS150/CH150 12 V Charging Regulators

6. Charging Details

6.1 Charging Algorithm

The PS150/CH150 offers both Continuous and Solar charging inputs. The

Continuous charging input has a maximum value of 1.1 A DC to help protect

AC/AC transformers and AC/DC converters. The 3.6 ADC typical current

limit of the PS150/CH150 Solar charging input is well suited for 70 W solar

panels. Typical Continuous charging inputs would be AC/AC transformers or

AC/DC converters in which a charge voltage is continuously applied except for

line power outages.

The PS150/CH150 uses a float charging algorithm for either the Continuous or

Solar charging inputs. This charging method can charge a battery indefinitely

without overcharging a battery.

6.2 Maximum Power Point Tracking

The current and power versus voltage for a 70 W solar panel are illustrated in

FIGURE 6-1. As can be seen from the figure, a Maximum Power Point of

operation exists for solar panels. Adjusting the load on the solar panel so it

operates at this Maximum Power Point is referred to as Maximum Power Point

Tracking (MPPT). MPPT is beneficial when insufficient power is available

from the charge source, which is the case during current limited charging. The

somewhat noisy charging current and voltage during the initial current limited

charging stage is due to the MPPT algorithm of the PS150/CH150 searching

for the maximum power point of the associated solar panel.

FIGURE 6-1. 70 W solar panel I – V and power characteristics

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21

0

0.9

1.8

2.7

3.6

4.5

0

10

20

30

40

50

60

70

Voltage (Volts)

C

ur

re

nt

(A

m

ps

)

Po

w

er

(W

at

ts)

4.5

0

I

m

70

0

P

m

21

0

Vc

m

13