LT3695EMSE#PBF Linear Technology, LT3695EMSE#PBF Datasheet - Page 15
LT3695EMSE#PBF
Manufacturer Part Number
LT3695EMSE#PBF
Description
IC SWIT REG BUCK 1A ADJ 16MSOP
Manufacturer
Linear Technology
Type
Step-Down (Buck)r
Datasheet
1.LT3695EMSEPBF.pdf
(30 pages)
Specifications of LT3695EMSE#PBF
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
0.8 ~ 20 V
Current - Output
1A
Frequency - Switching
250kHz ~ 2.2MHz
Voltage - Input
3.6 ~ 36 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
16-MSOP Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
APPLICATIONS INFORMATION
Choosing an inductor value so that the ripple current is
small will allow a maximum output current near the switch
current limit.
Table 2. Inductor Vendors
VENDOR
Murata
TDk
Toko
Coilcraft
Sumida
One approach to choosing the inductor is to start with the
simple rule given above, look at the available inductors,
and choose one to meet cost or space goals. Then use
these equations to check that the LT3695 regulators will
be able to deliver the required output current. Note again
that these equations assume that the inductor current is
continuous. Discontinuous operation occurs when I
is less than ΔI
Input Capacitor
Bypass the input of the LT3695 regulators’ circuit with a
ceramic capacitor of X7R or X5R type. Y5V types have poor
performance over temperature and applied voltage, and
should not be used. A 2.2μF to 10μF ceramic capacitor is
adequate to bypass the LT3695 regulators and will easily
handle the ripple current. Note that larger input capacitance
is required when a lower switching frequency is used. If
the input power source has high impedance, or there is
signifi cant inductance due to long wires or cables, additional
bulk capacitance may be necessary. This can be provided
with a lower performance electrolytic capacitor.
Step-down regulators draw current from the input sup-
ply in pulses with very fast rise and fall times. The input
capacitor is required to reduce the resulting voltage ripple
at the LT3695 regulators and to force this very high fre-
quency switching current into a tight local loop, minimizing
URL
www.murata.com
www.componenttdk.com
www.toko.com
www.coilcraft.com
www.sumida.com
L
/2.
PART SERIES
CDRH6D38
SLF10145
MSS7341
MSS1038
SLF7045
CDRH74
LQH55D
D62CB
D63CB
D73C
D75F
CR54
CR75
Shielded
Shielded
Shielded
Shielded
Shielded
Shielded
Shielded
Shielded
Shielded
TYPE
Open
Open
Open
Open
OUT
EMI. A 2.2μF capacitor is capable of this task, but only if
it is placed close to the LT3695 regulators (see the PCB
Layout section for more information). A second precau-
tion regarding the ceramic input capacitor concerns the
maximum input voltage rating of the LT3695 regulators.
A ceramic input capacitor combined with trace or cable
inductance forms a high-Q (underdamped) tank circuit.
If the LT3695 regulators circuit is plugged into a live sup-
ply, the input voltage can ring to twice its nominal value,
possibly exceeding the LT3695 regulators’ voltage rating.
For details see Application Note 88.
Output Capacitor and Output Ripple
The output capacitor has two essential functions. Along
with the inductor, it fi lters the square wave generated by
the LT3695 regulators to produce the DC output. In this
role it determines the output ripple, and low impedance
at the switching frequency is important. The second func-
tion is to store energy in order to satisfy transient loads
and stabilize the LT3695 regulators’ control loop. Ceramic
capacitors have very low equivalent series resistance
(ESR) and provide the best ripple performance. A good
starting value is:
where f
output capacitance in μF . Use X5R or X7R types. This
choice will provide low output ripple and good transient
response. Transient performance can be improved with a
higher value capacitor if the compensation network is also
adjusted to maintain the loop bandwidth. A lower value
of output capacitor can be used to save space and cost
but transient performance will suffer. See the Frequency
Compensation section to choose an appropriate compen-
sation network.
When choosing a capacitor, look carefully through the
data sheet to fi nd out what the actual capacitance is under
operating conditions (applied voltage and temperature).
A physically larger capacitor, or one with a higher voltage
rating, may be required. High performance tantalum or
electrolytic capacitors can be used for the output capacitor.
C
OUT
SW
=
V
is in MHz, and C
50
OUT
f
SW
LT3695 Series
OUT
is the recommended
15
3695fa
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