2 charging regulator with solar-panel test – Campbell Scientific CR3000 Micrologger User Manual

Section 10. Troubleshooting

440 

Battery Test

If using a rechargeable power supply,
disconnect the charging source (i.e., solar panel
or AC transformer) from the battery pack.
Wait 20 minutes before proceeding with this
test.

Test Voltage at Charging Regulator

Set a voltmeter to read DC voltage as high as
15 Vdc. Measure the voltage between a 12V
and G terminal on the charging regulator.
Is the voltage > 11.0 Vdc?

No

Yes

No

Is the battery a sealed, rechargeable
battery?

No

Yes

Test the Battery Under Load

Program the CR3000 to measure battery
voltage using a 0.01-second scan rate. Use the
voltmeter to measure the voltage between a
12V and G terminal on the charging regulator.
Is the voltage > 10.8 Vdc?

Is the voltage ≥ 10.5 Vdc?

No

Replace battery / batteries*

Yes

Yes

Recharge

battery.*

Is the battery voltage > 12 Vdc?

No

Yes

The battery is good.

Battery voltage is adequate for CR3000 operation. However, if the CR3000 is to function
for a long period, Campbell Scientific recommends replacing, or, if using a sealed,
rechargeable battery, recharging the battery so the voltage is > 12 Vdc.

*When using a sealed, rechargeable battery that is recharged with primary power provided by solar panel or ac/ac - ac/dc transformer, testing the
charging regulator is recommended. See Charging Regulator with Solar Panel Test

(p. 440)

or Charging Regulator with Transformer Test

(p. 442).

10.5.3.2 Charging Regulator with Solar-Panel Test

The procedure outlined in this flow chart tests PS100 and CH100 charging
regulators that use solar panels as the power source. If a need for repair is
indicated after following the procedure, see Warranty and Assistance

(p. 3)

for

information on sending items to Campbell Scientific.