Texas Instruments LMP8646 Evaluation Board LMP8646EB/NOPB LMP8646EB/NOPB Datenbogen

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LMP8646EB/NOPB

LMP8646EB User’s Guide

November 2011

Page 6 of 20

SNOU010

Using the formula above, calculate for the LMP8646 output accuracy knowing that V

SENSE

(1.5A)(55 mOhm), R

= 50 kOhm, V

OFFSET

= 1 mV, and Gm_Accuracy = 2% (LMP8646

datasheet, electrical characteristics table).





























100

825

852

825

852

100

200

100

825

200











Accuracy

Output

kOhm

mOhm

kOhm

mOhm

CALC

OUT

THEO

OUT



After figuring out the LMP8646 output accuracy, choose a tolerable system error or the output
current accuracy that is bigger than the LMP8646 output accuracy. This tolerable system
error will be labeled as I

ERROR

, which has the equation I

ERROR

= (I

MAX

– I

LIMIT

)/I

MAX

(%). In this

example, we can choose I

ERROR

= 5%. This value will be used to calculate for ROUT in the

next step.

5. Step 5: Choose the output resistor, ROUT, for LMP8646

At startup, the capacitor is not charged yet and thus the output voltage of the LM3102 is very small
(V

O_3102_MIN

, see Figure 3). Therefore, at this point, the output current is at its maximum (I

MAX

). When

the output voltage is at its nominal, then the output current will settle to the desired target value.
Because a large current error is not desired, ROUT needs to be chosen to stabilize the loop with
minimal initial startup current error. Follow the equations and example below to choose the
appropriate value for ROUT to minimize this initial error.

a)

Target current I

LIMIT

= 1.5A

In the previous example, we chose the maximum tolerable system error I

ERROR

as 5%.

Now, let’s calculate the maximum tolerable current, Imax:









ERROR

LIMIT

575

100

max























Calculate for ROUT, assuming that the minimum output voltage for the LM3102 is 0.6V (see
figure 3).