Test batteries without a voltmeter, part 2

Harry Gibbens Jr, PowerStream Technology, Orem, UT -- EDN, 3/15/2001

From a high-volume-production point of view of the Design Idea 'Test batteries without a voltmeter' (EDN, Nov 9, 2000, pg 167), it is a time-consuming and laborious task to tweak the large number of potentiometers on each of the comparator input references. An alternative to this onerous adjustment chore is to replace all potentiometers with 1%-tolerance fixed resistors (Figure 1). Before calculating each voltage-reference resistance value, you should use a reasonable selected total resistance value, R_TOT, ranging from 100 kΩ to 1 MΩ. You can usually obtain each of the resistance-divider values from off-the-shelf fixed resistors. After calculating all the resistance-divider values (with R_TOT=100 k?), if the closest reasonable stock values are unavailable, just increase the value of R_TOT. For the example in Figure 1, you calculate the values using a spreadsheet to obtain quick results. This example uses R_TOT=182 kOhm. All the calculations use Kirchoff's law:

Rearranging the terms in the formula, you determine the resistance value, R_X:

where V_X is each comparator's reference voltage, V_REFX; V_TOT=V_CC; and R_TOT is the manually selected value. The first step is to calculate the 'Formulated R' in Table 1, using the rearranged formula. An example follows:

Next, calculate the first resistance value, R₀, by using the formula

Calculate the rest of the resistor values, R₁ through R₇, by using the formula

For example, for R₁:

Finally, use the rearranged formula to find the last resistance value, R₈.

In Table 1, you match the rounded-off calculated resistance value (Calculated R) to the nearest available fixed-resistor value (Fixed R) as shown in the last two columns. Note that R₀ consists of two series-connected resistors.