LT1777 Linear Technology, LT1777 Datasheet - Page 14
LT1777
Manufacturer Part Number
LT1777
Description
Low Noise Step-Down Switching Regulator
Manufacturer
Linear Technology
Datasheet
1.LT1777.pdf
(24 pages)
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APPLICATIONS
LT1777
tors. Their relatively low ESR in the mid-MHz region can
further attenuate high speed glitches.
Maximum Load/Short-Circuit Considerations
The LT1777 is a current mode controller. It uses the V
node voltage as an input to a current comparator, which
turns off the output switch on a cycle-by-cycle basis as
this peak current is reached. The internal clamp on the V
node, nominally 2.0V, then acts as an output switch peak
current limit. This action becomes the switch current limit
specification. The maximum available output power is
then determined by the switch current limit.
A potential controllability problem could occur under
short-circuit conditions. If the power supply output is
short circuited, the feedback amplifier responds to the low
output voltage by raising the control voltage, V
peak current limit value. Ideally, the output switch would
be turned on, and then turned off as its current exceeded
the value indicated by V
time involved in both the current comparator and turn-off
of the output switch. These result in a minimum on time
t
(V
voltage drop, the potential exists for a loss of control.
Expressed mathematically the requirement to maintain
control is:
where:
If this condition is not observed, the current will not be
limited at I
higher value. Using the nominal LT1777 clock frequency
of 100kHz, a V
maximum t
140ns, an unacceptably short time.
14
ON(MIN)
F
f = switching frequency
t
V
V
I • R = inductor I • R voltage drop
ON
+ I • R), the diode forward voltage plus inductor I • R
f t
F
IN
= diode forward voltage
= switch on time
= Input voltage
ON
. When combined with the large ratio of V
PK
ON
, but will cycle-by-cycle ratchet up to some
V
to maintain control would be approximately
IN
F
V
of 48V and a (V
IN
I R
U
•
C
. However, there is finite response
INFORMATION
U
F
+ I • R) of say, 0.7V, the
W
U
C
, to its
IN
to
C
C
The solution to this dilemma is to slow down the oscillator
when the FB pin voltage is abnormally low thereby indicat-
ing some sort of short-circuit condition. Figure 7 shows
the typical response of oscillator frequency vs FB pin
voltage. Oscillator frequency is normal until FB voltage
drops to about half of its normal value. Below this point the
oscillator frequency decreases linearly down to a limit of
about 25kHz. This lower oscillator frequency during short-
circuit conditions can then maintain control with the
effective minimum on time.
A further potential problem with short-circuit operation
might occur if the user were operating the part with its
oscillator slaved to an external frequency source via the
SYNC pin. However, the LT1777 has circuitry to automati-
cally disable the sync function when the oscillator is
slowed down due to abnormally low FB voltage.
Feedback Divider Considerations
An LT1777 application typically includes a resistive divider
between V
the FB pin to the reference voltage V
a fixed ratio between the two resistors, but a second
degree of freedom is offered by the overall impedance
level of the resistor pair. The most obvious effect this has
is one of efficiency—a higher resistance feedback divider
will waste less power and offer somewhat higher effi-
ciency, especially at light load.
Figure 7. Oscillator Frequency vs FB Divider
Thevenin Voltage and Impedance
OUT
120
100
80
60
40
20
0
0
and ground, the center node of which drives
R
TH
FB DIVIDER THEVENIN VOLTAGE (V)
0.25
= 10k
R
TH
= 22k
0.50
R
0.75
TH
R
= 4.7k
TH
FB
1.00
REF
LT1777
. This establishes
1777 F07
1.25
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