1046 Ver la hoja de datos (PDF) - Linear Technology
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1046 Datasheet PDF : 12 Pages
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LTC1046
TYPICAL APPLICATI S
Negative Voltage Converter
Figure 7 shows a typical connection which will provide a
negative supply from an available positive supply. This
circuit operates over full temperature and power supply
ranges without the need of any external diodes. The LV pin
(Pin 6) is shown grounded, but for V+ ≥ 3V, it may be
floated, since LV is internally switched to GND (Pin 3) for
V+ ≥ 3V.
The output voltage (Pin 5) characteristics of the circuit are
those of a nearly ideal voltage source in series with an 27Ω
resistor. The 27Ω output impedance is composed of two
terms: 1) the equivalent switched capacitor resistance
(see Theory of Operation), and 2) a term related to the ON
resistance of the MOS switches.
At an oscillator frequency of 30kHz and C1 = 10µF, the first
term is:
( ) REQUIV =
1
fOSC / 2
=
• C1
1
= 6.7Ω.
15 • 103 • 10 • 10–6
Notice that the equation for REQUIV is not a capacitive
reactance equation (XC = 1/ωC) and does not contain a 2π
term.
The exact expression for output impedance is complex,
but the dominant effect of the capacitor is clearly shown on
+
10µF
LTC1046
1
BOOST
V+ 8
2 CAP + OSC 7
3
GND
LV 6
4 CAP – VOUT 5
V+
1.5V TO 6V
REQUIRED FOR V+ < 3V
VOUT = –V+
10µF
TMIN ≤ TA ≤ TMAX
1046 F07
the typical curves of output impedance and power effi-
ciency versus frequency. For C1 = C2 = 10µF, the output
impedance goes from 27Ω at fOSC = 30kHz to 225Ω at
fOSC = 1kHz. As the 1/fC term becomes large compared to
switch ON resistance term, the output resistance is deter-
mined by 1/fC only.
Voltage Doubling
Figure 8 shows a two diode, capacitive voltage doubler.
With a 5V input, the output is 9.1V with no load and 8.2V
with a 10mA load.
LTC1046
1
BOOST
V+ 8
2 CAP + OSC 7
3
GND
LV 6
4 CAP – VOUT 5
+
VD
REQUIRED
FOR
V+ < 3V +
+ VD
+
10µF
V+
1.5V TO 6V
VOUT = 2
(VIN – 1)
10µF
1046 F08
Figure 8. Voltage Doubler
Ultraprecision Voltage Divider
An ultraprecision voltage divider is shown in Figure 9. To
achieve the 0.0002% accuracy indicated, the load current
should be kept below 100nA. However, with a slight loss
in accuracy, the load current can be increased.
+
C1
10µF
V+
2
±0.002%
+
TMIN ≤ TA ≤ TMAX
IL ≤ 100nA
LTC1046
1
BOOST
V+ 8
2 CAP + OSC 7
3
GND
LV 6
4 CAP – VOUT 5
V+
3V TO 12V
C2
10µF
1046 F09
REQUIRED FOR V+ < 6V
Figure 7. Negative Voltage Converter
Figure 9. Ultraprecision Voltage Divider
7
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