LM3350
Switched Capacitor Voltage Converter
General Description
The LM3350 is a CMOS charge-pump voltage converter
which efficiently provides a 3.3V to 5V step-up, or 5V to 3.3V
step-down. The LM3350 uses four small, low cost capacitors
to provide the voltage conversion. It eliminates the cost, size
and radiated EMI related to inductor based circuits, or the
power loss of a linear regulator. Operating power conversion
efficiency greater than 90% provides ideal performance for
battery powered portable systems.
The architecture provides a fixed voltage conversion ratio of
3/2 or 2/3. Thus it can be used for other DC-DC conversions
as well.
Key Specifications
n
800 kHz switch frequency allows use of very small,
inexpensive capacitors.
n
4.2
typical step-up output impedance
n
1.8
typical step-down output impedance
n
90% typical power conversion efficiency at 50 mA
n
250 nA typical shutdown current
Features
n
Conversion of 3.3V to 5V, or 5V to 3.3V
n
Small Mini SO-8 package
n
No inductor required
Applications
n
Any mixed 5V and 3.3V system
n
Laptop computers and PDAs
n
Handheld instrumentation
n
PCMCIA cards
Ordering Information
Order Number
Package Type
NSC Package
Drawing
Package
Marking
Supplied As
LM3350MMX
Mini SO-8
MUA08A
S00A
3500k Units on Tape and Reel
LM3350MM
Mini SO-8
MUA08A
S00A
1000 Units on Tape and Reel
Basic Operating Circuits
Connection Diagram
Step-Up Converter
DS100002-1
Step-Down Converter
DS100002-2
Mini SO8 Package
DS100002-3
Top View
December 1999
LM3350
Switched
Capacitor
V
oltage
Converter
1999 National Semiconductor Corporation
DS100002
www.national.com
Absolute Maximum Ratings
(Note 1)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
Maximum Input Voltage, Step-Down
5.5V
Maximum Input Voltage, Step-Up
3.65V
Power Dissipation (P
D
) (T
A
=25C,
(Note 2))
500 mW
ja
(Note 2)
250C/W
Tj Max (Note 2)
150C
Storage Temperature
-65C to +150C
Lead Temperature (Soldering, 10
secs)
260C
ESD Susceptibility (Note 3)
2kV
Not short circuit protected.
Operating Conditions
(Note 1)
Ambient Temperature Range
-40C to + 85C
Electrical Characteristics
3/2 Step-Up Voltage Converter
Specifications in standard type face are for T
j
= 25C, and those with boldface type apply over full operating temperature
range. Unless otherwise specified, V
in
= 3.3V, V
Enable
= 3.3V, I
load
= 50 mA.
Symbol
Parameter
Conditions
Typ (Note 4)
Limits (Note 5)
Units
V
outNL
Output Voltage at
No Load
C1, C2, C
in
and C
out
: 0.33F, esr
0.33
at 1MHz. I
load
= 0 A
5.0
V
V
outFL
Output Voltage at
50 mA
C1, C2, C
in
and C
out
: 0.33F, esr
0.33
at 1MHz. I
load
= 50 mA
4.7
V
V
in
Input Supply
Voltage Range
3.3
V
2.5
V(Min)
3.65
V(Max)
I
Q1
Quiescent Current
Shutdown Mode, V
Enable
= 0V,
I
load
=0 A; Current into pin V
low
0.025
A
3
A(Max)
I
Q2
Quiescent Current
Normal Mode, I
Ioad
= 0A; Current into
pin V
Iow
3.75
mA
5
mA(Max)
Z
out
Output Source
Impedance
I
load
= 50 mA
4.2
6.25
(Max)
f
SW
Switching
Frequency
(Note 6)
800
kHz
500
kHz(Min)
1100
kHz(Max)
V
Enable
Enable Threshold
Voltage
1.7
V
1.0
V(Min)
2.5
V(Max)
I
Enable
Leakage Current
Current into ENABLE pin; ENABLE =
5V and all other pins at ground
0.025
A
1
A(Max)
P
Power Efficiency
90
%
Electrical Characteristics
2/3 Step-Down Voltage Converter
Specifications in standard type face are for T
j
= 25C, and those with boldface type apply over full operating temperature
range. Unless otherwise specified, V
high
= 5V, V
Enable
= 5V, I
load
= 50 mA.
Symbol
Parameter
Conditions
Typ (Note 4)
Limits (Note 5)
Units
V
outNL
Output Voltage at
No Load
C1, C2, C
in
and C
out
: 0.33F, esr
0.33
at 1MHz. I
load
= 0 A
3.3
V
V
outFL
Output Voltage at
50 mA
C1, C2, C
in
and C
out
: 0.33 F, esr
0.33
at 1MHz. I
load
=50 mA
3.2
V
V
in
Input Supply
Voltage Range
5
V
2.2
V(Min)
5.5
V(Max)
I
Q1
Quiescent Current
Shutdown Mode, V
Enable
= 0V,
I
load
=0 A; Current into pin V
high
0.25
A
3
A(Max)
LM3350
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2
Electrical Characteristics
2/3 Step-Down Voltage Converter
(Continued)
Specifications in standard type face are for T
j
= 25C, and those with boldface type apply over full operating temperature
range. Unless otherwise specified, V
high
= 5V, V
Enable
= 5V, I
load
= 50 mA.
Symbol
Parameter
Conditions
Typ (Note 4)
Limits (Note 5)
Units
I
Q2
Quiescent Current
Normal Mode, I
Ioad
= 0A; Current into
pin V
high
2.5
mA
3.3
mA(Max)
Z
out
Output Source
Impedance
I
load
= 50 mA
1.8
3
(Max)
f
SW
Switching
Frequency
(Note 6)
800
kHz
500
kHz(Min)
1100
kHz(Max)
V
Enable
Enable Threshold
Voltage
1.7
V
1.0
V(Min)
2.5
V(Max)
I
Enable
Leakage Current
Current into ENABLE pin; ENABLE =
5V and all other pins at ground
0.025
A
1
A(Max)
P
Power Efficiency
90
%
Note 1: Absolute maximum ratings indicate limits beyond which damage to the device may occur. Operating ratings indicate conditions for which the device is in-
tended to be functional, but do not guarantee specific performance limits. For guaranteed specifications and test conditions, see Electrical Characteristics. The guar-
anteed specifications apply only for the test conditions listed. Some performance characteristics may degrade when the device is not operated under the listed test
conditions.
Note 2: For operation at elevated temperatures, LM3350 must be derated based on package thermal resistance of
ja
and T
j
max, T
j
= T
A
+
ja
P
D
.
Note 3: The human body model is a 100 pF capacitor discharged through a 1.5 kW resistor into each pin.
Note 4: Typical numbers are at 25C and represent the most likely parametric norm.
Note 5: Limits are 100% production tested at 25C. Limits over the operating temperature range are guaranteed through correlation using Statistical Quality Control
(SQC) methods. The limits are used to calculate National's Averaging Outgoing Quality Level (AOQL).
Note 6: The internal oscillator runs at 1.6 MHz, the output switches operate at one half of the oscillator frequency, f
OSC
= 2f
SW
.
Typical Performance Characteristics
V
out
vs I
load
(Step-Up)
DS100002-4
P
vs I
load
(Step-Up)
DS100002-6
Output Source Impedance vs
Temperature (Step-Up)
DS100002-9
LM3350
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3
Typical Performance Characteristics
(Continued)
Pin Description
Pin
Name
Function
1
Cap1+
Positive terminal for the first charge
pump capacitor.
2
Cap1-
Negative terminal for the first charge
pump capacitor.
3
Cap2+
Positive terminal for the second charge
pump capacitor.
4
Cap2-
Negative terminal for the second charge
pump capacitor.
5
V
low
In Step-Up mode, this will be the input
terminal. In Step-Down mode, this will
be the output terminal.
6
Gnd
Ground
7
V
high
In Step-Down mode, this will be the
input terminal. In Step-Up mode, this
will be the output terminal.
8
Enable
Active high CMOS logic level Enable
Input. Connect to Voltage Input terminal
to enable the IC. Connect to Ground
(Pin 6) to disable.
Detailed Operation
OPERATING PRINCIPLE
The LM3350 is a charge-pump voltage converter that pro-
vides a voltage conversion ratio of 3/2 in step-up mode and
a conversion ratio of 2/3 in the step-down mode. Thus it can
be used in the step-down mode to provide a 3.3V output
from a regulated 5V input or in the step-up mode to provide
a 5V output from a regulated 3.3V input. Other values of in-
put voltages can be used as long as they are within the lim-
its.
The LM3350 contains an array of CMOS switches which are
operated in a certain sequence to provide the step-up or
step-down of the input supply. An internal RC oscillator pro-
vides the timing signals.
Energy transfer and storage are provided by four inexpen-
sive ceramic capacitors. The selection of these capacitors is
explained in the Capacitor Selection section under Applica-
tion Information.
V
out
vs I
load
(Step-Down)
DS100002-5
P
vs I
load
(Step-Down)
DS100002-7
Output Source Impedance vs
Temperature (Step-Down)
DS100002-8
Switching Frequency vs
Temperature
DS100002-10
LM3350
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4
Detailed Operation
(Continued)
STEP-UP APPLICATIONS NEED AN EXTRA DIODE
The LM3350 is biased from pin V
high
. Thus for step-up appli-
cations, an external Schottky diode (D1) is needed to supply
power to V
high
during startup (See
Figure 2). Note that during
shutdown, this diode will provide a DC path from V
in
to V
out
.
The load may therefore continue to draw current from the in-
put voltage source. This Schottky diode is not required for
step-down applications (See
Figure 3).
SHUTDOWN MODE
When ENABLE is a logic low (ground), the LM3350 enters a
low power shutdown mode. In this mode, all circuitry is dis-
abled and therefore, all switching action stops. During shut-
down, the current consumption drops to 250 nA (typical).
When ENABLE is a logic high, (i.e. 3.3V for step-up mode
and 5.0V for step-down mode), the LM3350 returns to nor-
mal operation.
Application Information
CAPACITOR SELECTION
The LM3350 requires four capacitors: an input bypass ca-
pacitor (connected between V
in
and ground), an output hold
capacitor (connected between V
out
and ground), and two
sampling capacitors (C1 and C2 in
Figures 2, 3). 0.33 F
(
20%) ceramic chip type capacitors are recommended for
all four capacitors. The usable operating frequency should
be greater than 5 MHz for all capacitors.
The input bypass capacitor (C
in
) is the least critical. Its value
should be at least that of the sampling capacitors.
While the recommended sampling capacitor values are 0.33
F, other values may be selected. Values other than 0.33 F
affect maximum output current rating and efficiency.
Figure 1
shows typical output impedance (Z
out
) versus capacitor
value.
The output hold capacitor value determines the output ripple.
Increasing the value of the hold capacitor decreases the
ripple. The value of this capacitor (C
out
) can be calculated
(approximately) based on the output ripple (
V
out
) require-
ments from:
where I
load
is the load current and f
O
is the oscillator fre-
quency.
In order to ensure superior performance over the entire oper-
ating temperature range, capacitors made of X7R dielectric
material are suggested. However, capacitors made of other
dielectric materials that still meet the
20% specification
over the entire temperature range can also be used.
PRECAUTIONS
The LM3350 is not short circuit protected.
DS100002-11
A. Step-Up Mode
DS100002-12
B. Step-Down Mode
FIGURE 1. Z
out
vs. C
LM3350
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