參數(shù)資料
型號: LT1054MJ8#PBF
廠商: LINEAR TECHNOLOGY CORP
元件分類: 穩(wěn)壓器
英文描述: SWITCHED CAPACITOR REGULATOR, 40 kHz SWITCHING FREQ-MAX, CDIP8
封裝: 0.300 INCH, LEAD FREE, HERMETIC SEALED, CERAMIC, DIP-8
文件頁數(shù): 15/16頁
文件大小: 264K
代理商: LT1054MJ8#PBF
LT1054/LT1054L
8
1054lfg
APPLICATIONS INFORMATION
R4
RESTART SHUTDOWN
C1
R2
CIN
10F
TANTALUM
COUT
100F
TANTALUM
VOUT
LT1054 F05
VIN
R1
2.2F
R3
R2
R1
=
+ 1
WHERE VREF = 2.5V NOMINAL
*CHOOSE THE CLOSEST 1% VALUE
FOR EXAMPLE: TO GET VOUT = –5V REFERRED TO THE GROUND
PIN OF THE LT1054, CHOOSE R1 = 20k, THEN
|VOUT|
)
VREF
2
– 40mV
R2 = 20k
= 102.6k*
+ 1
|–5V|
)
2.5V
2
– 40mV
)
) +1
|VOUT|
1.21V
LT1054
FB/SHDN
CAP+
GND
CAP
V+
OSC
VREF
VOUT
+
be 20k or greater because the reference output current
is limited to ≈100A. R2 should be chosen to be in the
range of 100k to 300k. For optimum results the ratio of
CIN/COUT is recommended to be 1/10. C1, required for
good load regulation at light load currents, should be
0.002F for all output voltages.
A new die layout was required to fit into the physical
dimensions of the S8 package. Although the new die
of the LT1054CS8 will meet all the specifications of the
existing LT1054 data sheet, subtle differences in the
layout of the new die require consideration in some ap-
plication circuits. In regulating mode circuits using the
1054CS8 the nominal values of the capacitors, CIN and
COUT, must be approximately equal for proper operation
at elevated junction temperatures. This is different from
the earlier part. Mismatches within normal production
tolerances for the capacitors are acceptable. Making the
nominal capacitor values equal will ensure proper opera-
tion at elevated junction temperatures at the cost of a
small degradation in the transient response of regulator
circuits. For unregulated circuits the values of CIN and
COUT are normally equal for all packages. For S8 applica-
tions assistance in unusual applications circuits, please
consult the factory.
It can be seen from the circuit block diagram that the
maximumregulatedoutputvoltageislimitedbythesupply
voltage. For the basic configuration,
|VOUT| referred to the
ground pin of the LT1054 must be less than the total of the
supply voltage minus the voltage loss due to the switches.
The voltage loss versus output current due to the switches
canbefoundinTypicalPerformanceCharacteristics.Other
configurations such as the negative doubler can provide
higher output voltages at reduced output currents (see
Typical Applications).
Capacitor Selection
ForunregulatedcircuitsthenominalvaluesofCINandCOUT
should be equal. For regulated circuits see the section on
Regulation. While the exact values of CIN and COUT are
noncritical, good quality, low ESR capacitors such as solid
tantalum are necessary to minimize voltage losses at high
currents. For CIN the effect of the ESR of the capacitor will
be multiplied by four due to the fact that switch currents
areapproximatelytwotimeshigherthanoutputcurrentand
losses will occur on both the charge and discharge cycle.
This means that using a capacitor with 1Ω of ESR for CIN
will have the same effect as increasing the output imped-
ance of the LT1054 by 4Ω. This represents a significant
increase in the voltage losses. For COUTtheaffectofESRis
less dramatic. COUT is alternately charged and discharged
at a current approximately equal to the output current and
the ESR of the capacitor will cause a step function to oc-
cur in the output ripple at the switch transitions. This step
function will degrade the output regulation for changes
in output load current and should be avoided. Realizing
that large value tantalum capacitors can be expensive, a
technique that can be used is to parallel a smaller tantalum
capacitor with a large aluminum electrolytic capacitor to
gain both low ESR and reasonable cost. Where physical
size is a concern some of the newer chip type surface
mount tantalum capacitors can be used. These capacitors
are normally rated at working voltages in the 10V to 20V
range and exhibit very low ESR (in the range of 0.1Ω).
Output Ripple
The peak-to-peak output ripple is determined by the value
of the output capacitor and the output current. Peak-to-
peak output ripple may be approximated by the formula:
dV
=
IOUT
2fCOUT
Figure 5
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