Cadex Electronics Inc. C7000-C Series Battery Analyzers .
398mA, and battery temperature is 21°C. Battery capacity has not yet
been determined.
0,2,"CDX01 ","01/24/2001","085456",27,"0\80", 341
e) An OhmTest was performed (Code 27). Resistance is measured at
341m?.
0,2,"CDX01 ","01/24/2001","100200",250,"7\1419\-401\35","85\37"
f) Normal processing (Code 250). The battery is discharging (process = 7),
terminal voltage is 1419 mV, discharge current is 401mA, and battery
temperature is 35°C. Current battery capacity is 85%; previous capacity
was 37%.
0,2,"CDX01 ","01/25/2001","090500",250,"5\1694\7\28","89\87"
g) Normal processing (Code 250). The battery is ready (process = 5),
terminal voltage is 1694 mV, charge current is 7mA (trickle charge),
and battery temperature is 28°C. Final battery capacity achieved is
89%; previous capacity was 87%.
0,2,"CDX090 ","04/11/2001","151600",250,"35\3943\0\23","76\67"
h) Normal processing (Code 250) of battery ID CDX090. A QuickTest has
been completed (status code 35). Terminal voltage is 3943mV, no
current is being applied, and battery temperature is 23° C. The battery
SoH is 76% with a confidence grade of 67, the ASCII code for “C”. (“A”
is 65, and “B” is 66).
Setting up the Data Log
To log data to a computer, connect the Cadex analyzer to the serial port of a computer
(see Connecting to BatteryShop or a Printer, page 63), set the Cadex analyzer to log
data, and set up a program to read the data from the serial port. The procedure outlined
here assumes Microsoft’s HyperTerminal communications program is used, which comes
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