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VCC  OUT
10V/div
VOUT10V/div
I
IN
1A/div
FETPWR10W/div
M1PowerMeasured29.6W ,
Calculated34.4W
-
-
TPS2490
TPS2491
SLVS503D NOVEMBER 2003REVISED JULY 2012
www.ti.com
Action of the Constant Power Engine (Figure 14)
The calculated power dissipated in M1, V
DS
D
, is computed under the same startup conditions as Figure 13 .
The current of M1, labeled I
IN
, initially rises to the value that satisfies the constant power engine; in this case it is
34 W ?48 V = 0.7 A. The 34 W value is programmed into the engine by setting the PROG voltage using the
equation given in the PROG pin description. V
DS
of M1, which is calculated as V
(SENSEOUT)
, falls as C
O
charges,
thus allowing the M1 drain current to increase . This is the result of the internal constant power engine adjusting
the current limit reference to the GATE amplifier as C
O
charges and V
DS
falls. The calculated device power in
Figure 14, labeled FET PWR, is seen to be flat-topped and constant within the limitations of circuit tolerance and
acquisition noise. A fixed current limit is implemented by clamping the constant power engines output to 50 mV
when V
DS
is low. This protection technique can be viewed as a specialized form of foldback limiting; the benefit
over linear foldback is that it yields the maximum output current from a device over the full range of V
DS
and still
protects the device.
Figure 14. Computation of M1 Stress During Startup
Response to a Hard Output Short (Figure 15 and Figure 16)
Figure 15 shows the short circuit response over the full time-out period. The period begins when the output
voltage falls and ends when M1 is turned off. M1 current is actively controlled by the constant power engine and
gate amplifier circuit while the TIMER pin charges C
T
to the 4 V threshold causing M1 to be turned off. The
TPS2490 latches off after the threshold is reached until either the input voltage drops below the UVLO threshold
or EN cycles through the false (low) state. The TPS2491 goes through a timing sequence before attempting a
restart.
12
Copyright ?20032012, Texas Instruments Incorporated
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