SP6648UEB Exar Corporation, SP6648UEB Datasheet - Page 5
SP6648UEB
Manufacturer Part Number
SP6648UEB
Description
Power Management Modules & Development Tools Ultra Low Quies Cur Hi-Eff Boost Reg
Manufacturer
Exar Corporation
Type
DC/DC Switching Converters, Regulators & Controllersr
Datasheet
1.SP6648EU-L.pdf
(16 pages)
Specifications of SP6648UEB
Product
Power Management Modules
At light loads (as shown in plot A in Figure 1)
the charge cycle will last the maximum value for
t
t
The current built up in the coil during the charge
cycle gets fully discharged in the discontinuous
conduction mode (DCM). When the current in
the coil has reached zero, the synchronous rec-
tifier switch is opened and the voltage across the
coil (from V
eliminate inductive ringing.
With increasing load (as shown in plot B in
Figure 1) this inductor damping time becomes
shorter, because the output will quickly drop
below its regulation point due to heavier load. If
the load current increases further, the SP6648
enters continuous conduction mode (CCM)
where there is always current flowing in the
inductor. The charge time remains at maximum
t
not reached as shown in plot C in Figure 1. The
inductor peak current limit can be programmed
by tying a resistor R
ground where:
When the peak current limit is reached the
charge time is short-cycled.
In plot D of Figure 1, the switch current reaches
the peak current limit during the charge period
Date: 6/7/06 Rev B
ON
ON
ON
: For a 1V battery this would be as follows:
as long as the inductor peak current limit is
= K
ON
I
PEAK
/ V
BATT
BATT
= 1600 / R
to LX) is shorted internally to
= 4.0Vμs / 1V = 4.0μs
LIM
from the R
LIM
SP6648 Ultra-low Quiescent Current, High Efficiency Boost Regulator
LIM
pin to
5
Figure 1. Inductor Current vs. Load
which ends the charge cycle and starts the dis-
charge cycle. However, full load is not yet
achieved because at the end of the minimum
discharge time the output was still within regu-
lation.
Maximum load is reached when this discharge
time has shrunk to the minimum allowed value
T
OFF
THEORY OF OPERATION: Continued
as shown in Plot E of Figure 1.
Ton Max.
Ton Max.
Ton Max.
Ton Max.
Toff Min.
Toff Min.
Ton Max.
Inductor Current vs. Load
Toff Min.
E. Iripple=Toff* (Vo - Vi)/L
D. Toff*= (Vo - Vi)/L<Iripple<Ton*Vi/L
C. Iripple=Ton*Vi/L
B. Iripple=Ton*Vi/L
A. Iripple=Ton*Vi/L
Toff Min.
Toff Min.
© 2006 Sipex Corporation
llim
llim
llim
llim
llim
E
D
C
B
A
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