LT1054CJ8 Linear Technology, LT1054CJ8 Datasheet - Page 7
LT1054CJ8
Manufacturer Part Number
LT1054CJ8
Description
100MA SW CAP VOLT CONVERTER
Manufacturer
Linear Technology
Type
Switched Capacitor (Charge Pump), Doubler, Invertingr
Datasheet
1.LT1054LCS8PBF.pdf
(16 pages)
Specifications of LT1054CJ8
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
Adjustable
Current - Output
100mA
Frequency - Switching
25kHz
Voltage - Input
3.5 ~ 15 V
Operating Temperature
0°C ~ 100°C
Mounting Type
Through Hole
Package / Case
8-DIP (0.300", 7.62mm)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Power - Output
-
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PIN FUNCTIONS
is charging, the peak supply current will be approximately
equal to 2.2 times the output current. During the time that
C
to approximately 0.2 times the output current. An input
supply bypass capacitor will supply part of the peak input
current drawn by the LT1054 and average out the current
drawn from the supply. A minimum input supply bypass
APPLICATIONS INFORMATION
Theory of Operation
To understand the theory of operation of the LT1054, a re-
view of a basic switched-capacitor building block is helpful.
In Figure 3 when the switch is in the left position, capaci-
tor C1 will charge to voltage V1. The total charge on C1
will be q1 = C1V1. The switch then moves to the right,
discharging C1 to voltage V2. After this discharge time
the charge on C1 is q2 = C1V2. Note that charge has been
transferred from the source V1 to the output V2. The
amount of charge transferred is:
If the switch is cycled f times per second, the charge
transfer per unit time (i.e., current) is:
To obtain an equivalent resistance for the switched-
capacitor network we can rewrite this equation in terms
of voltage and impedance equivalence:
A new variable R
Thus the equivalent circuit for the switched-capacitor
network is as shown in Figure 4. The LT1054 has the same
switching action as the basic switched-capacitor building
block. Even though this simplification doesn’t include finite
switch on-resistance and output voltage ripple, it provides
an intuitive feel for how the device works.
These simplified circuits explain voltage loss as a function
of frequency (see Typical Performance Characteristics).
As frequency is decreased, the output impedance will
IN
∆q = q1 – q2 = C1(V1 – V2)
I = (f)(∆q) = (f)[C1(V1 – V2)]
I=
is delivering charge to C
V1– V2
1/ fC1
=
EQUIV
V1– V2
R
EQUIV
is defined such that R
OUT
the supply current drops
EQUIV
= 1/fC1.
capacitor of 2µF , preferably tantalum or some other low ESR
type is recommended. A larger capacitor may be desirable
in some cases, for example, when the actual input supply
is connected to the LT1054 through long leads, or when
the pulse current drawn by the LT1054 might affect other
circuitry through supply coupling.
eventually be dominated by the 1/fC1 term and voltage
losses will rise.
Note that losses also rise as frequency increases. This is
caused by internal switching losses which occur due to
some finite charge being lost on each switching cycle. This
charge loss per-unit-cycle, when multiplied by the switching
frequency, becomes a current loss. At high frequency this
loss becomes significant and voltage losses again rise.
The oscillator of the LT1054 is designed to run in the
frequency band where voltage losses are at a minimum.
Regulation
The error amplifier of the LT1054 servos the drive to the
PNP switch to control the voltage across the input capaci-
tor (C
Using the reference and error amplifier of the LT1054,
an external resistive divider is all that is needed to set
the regulated output voltage. Figure 5 shows the basic
regulator configuration and the formula for calculating
the appropriate resistor values. R1 should be chosen to
IN
Figure 3. Switched-Capacitor Equivalent Circuit
) which in turn will determine the output voltage.
Figure 3. Switched-Capacitor Building Block
V1
V1
R
EQUIV
=
R
EQUIV
fC1
1
C1
f
LT1054/LT1054L
C2
C2
R
R
L
L
LT1054 • F03
LT1054 • F04
V2
V2
1954lff
7
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