LTC1649CS#PBF Linear Technology, LTC1649CS#PBF Datasheet - Page 13
LTC1649CS#PBF
Manufacturer Part Number
LTC1649CS#PBF
Description
IC BUCK/SW CAP SYNC ADJ 16SOIC
Manufacturer
Linear Technology
Type
Step-Down (Buck), Switched Capacitor (Charge Pump)r
Datasheet
1.LTC1649CSPBF.pdf
(16 pages)
Specifications of LTC1649CS#PBF
Internal Switch(s)
No
Synchronous Rectifier
Yes
Number Of Outputs
1
Voltage - Output
1.26 ~ 2.5 V
Current - Output
20A
Frequency - Switching
200kHz
Voltage - Input
2.7 ~ 5 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
16-SOIC (3.9mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
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APPLICATIONS
resume normal operation. The CP
lated at 5V in shutdown, and can be used as a keep-alive
supply for external circuitry if desired. Note that any
current drawn from the CP
current in shutdown, and subtracts from the current
available to drive the external MOSFETs if the load remains
connected while the LTC1649 is active.
External Clock Synchronization
The LTC1649 SHDN pin can double as an external clock
input for applications that require a synchronized clock or
a faster switching speed. The SHDN pin terminates the
internal sawtooth wave and resets the oscillator immedi-
ately when it goes low, but waits 50 s before shutting
down the rest of the internal circuitry. A clock signal
applied directly to the SHDN pin will force the LTC1649
internal oscillator to lock to its frequency as long as the
external clock runs faster than the internal oscillator
frequency. The LTC1649 can be synchronized to frequen-
cies between 250kHz and about 350kHz.
Frequencies above 350kHz can cause erratic current limit
operation and are not recommended.
Setting the Output Voltage
The LTC1649 feedback loop senses the output voltage at
the FB pin. The loop regulates FB to 1.265V; to set the
output voltage, FB should be connected to the output node
through a resistor divider, set up so the voltage at FB is
1.265V when the output is at the desired voltage (see
Figure 8). The upper end of R1 should be connected to the
output voltage as close to the load as possible, to minimize
errors caused by resistance in the output leads. The
bottom of R2 should be connected to the high power
ground node, at the GND pin of the LTC1649.
R1 and R2 should be chosen so that:
V
OUT
=
R
1
R2
+ R
2
U
V
REF
INFORMATION
U
OUT
=
R
pin adds to the quiescent
1
R2
+ R
OUT
W
2
pin remains regu-
(1.265V)
U
An easy way to simplify the math is to choose
R2 = 12.65k . This simplifies the equation to:
A typical 2.5V output application might use R1 = 12.35k ,
R2 = 12.65k . The nearest standard 1% values are
R1 = 12.4k , R2 = 12.7k , which gives an output voltage
of 2.5001V—pretty close to 2.5V.
Note that using 1% resistors can cause as much as 1%
error in the output voltage in a typical LTC1649 applica-
tion—a significant fraction of the total output error. 0.1%
or 0.25% feedback resistors are recommended for appli-
cations which require the output voltage to be controlled
to better than 3%.
LAYOUT CONSIDERATIONS
Grounding
Proper grounding is critical for the LTC1649 to obtain
specified output regulation. Extremely high peak currents
(as high as several amps) can flow between the bypass
capacitors and the PV
currents can generate significant voltage differences be-
tween two points that are nominally both “ground.” As a
general rule, power and signal grounds should be totally
separated on the layout, and should be brought together
at only one point, right at the LTC1649 GND pin. This helps
minimize internal ground disturbances in the LTC1649,
while preventing excessive current flow from disrupting
the operation of the circuits connected to GND. The high
power GND node should be as compact and low imped-
ance as possible, with the negative terminals of the input
V
OUT
=
10k
Figure 8. Resistor Divider at FB Pin
R
1
LTC1649
+ 1.265V
GND
CC1
FB
, PV
CC2
R1
R2
+
and GND pins. These
C
1659 F08
V
OUT
OUT
LTC1649
13
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