MAX660C Просмотр технического описания (PDF) - Maxim Integrated
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MAX660C Datasheet PDF : 12 Pages
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CMOS Monolithic Voltage Converter
______________Detailed Description
The MAX660 capacitive charge-pump circuit either
inverts or doubles the input voltage (see Typical
Operating Circuits). For highest performance, low
effective series resistance (ESR) capacitors should be
used. See Capacitor Selection section for more details.
When using the inverting mode with a supply voltage
less than 3V, LV must be connected to GND. This
bypasses the internal regulator circuitry and provides
best performance in low-voltage applications. When
using the inverter mode with a supply voltage above
3V, LV may be connected to GND or left open. The part
is typically operated with LV grounded, but since LV
may be left open, the substitution of the MAX660 for the
ICL7660 is simplified. LV must be grounded when over-
driving OSC (see Changing Oscillator Frequency sec-
tion). Connect LV to OUT (for any supply voltage) when
using the doubling mode.
__________Applications Information
Negative Voltage Converter
The most common application of the MAX660 is as a
charge-pump voltage inverter. The operating circuit
uses only two external capacitors, C1 and C2 (see
Typical Operating Circuits).
Even though its output is not actively regulated, the
MAX660 is very insensitive to load current changes. A
typical output source resistance of 6.5Ω means that
with an input of +5V the output voltage is -5V under
light load, and decreases only to -4.35V with a load of
100mA. Output source resistance vs. temperature and
supply voltage are shown in the Typical Operating
Characteristics graphs.
Output ripple voltage is calculated by noting the output
current supplied is solely from capacitor C2 during
Table 1. Single-Output Charge Pumps
one-half of the charge-pump cycle. This introduces a
peak-to-peak ripple of:
VRIPPLE =
IOUT
+ IOUT (ESRC2)
2(fPUMP) (C2)
For a nominal fPUMP of 5kHz (one-half the nominal
10kHz oscillator frequency) and C2 = 150µF with an
ESR of 0.2Ω, ripple is approximately 90mV with a
100mA load current. If C2 is raised to 390µF, the ripple
drops to 45mV.
Positive Voltage Doubler
The MAX660 operates in the voltage-doubling mode as
shown in the Typical Operating Circuit. The no-load
output is 2 x VIN.
Other Switched-Capacitor Converters
Please refer to Table 1, which shows Maxim’s charge-
pump offerings.
Changing Oscillator Frequency
Four modes control the MAX660’s clock frequency, as
listed below:
FC
Open
FC = V+
Open or
FC = V+
Open
OSC
Open
Open
External
Capacitor
External
Clock
Oscillator Frequency
10kHz
80kHz
See Typical Operating
Characteristics
External Clock Frequency
When FC and OSC are unconnected (open), the oscil-
lator runs at 10kHz typically. When FC is connected to
V+, the charge and discharge current at OSC changes
from 1.0µA to 8.0µA, thus increasing the oscillator
MAX828
Package
SOT 23-5
Op. Current
(typ, mA)
Output Ω
(typ)
Pump Rate
(kHz)
Input (V)
0.06
20
12
1.25 to 5.5
MAX829 MAX860 MAX861 MAX660 MAX1044
SOT 23-5
0.15
SO-8,
µMAX
SO-8,
µMAX
SO-8
0.2 at 6kHz, 0.3 at 13kHz, 0.12 at 5kHz,
0.6 at 50kHz, 1.1 at 100kHz, 1 at 40kHz
1.4 at 130kHz 2.5 at 250kHz
SO-8,
µMAX
0.03
20
12
12
6.5
6.5
ICL7662
SO-8
0.25
125
35
6, 50, 130 13, 100, 150
5, 40
5
10
1.25 to 5.5 1.5 to 5.5
1.5 to 5.5
1.5 to 5.5
1.5 to 10
1.5 to 10
ICL7660
SO-8,
µMAX
0.08
55
10
1.5 to 10
6 _______________________________________________________________________________________
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