ICL7660ESA Maxim Integrated Products, ICL7660ESA Datasheet - Page 7
ICL7660ESA
Manufacturer Part Number
ICL7660ESA
Description
Charge Pumps Switched-Capacitor Voltage Converter
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX1044CSA.pdf
(12 pages)
Specifications of ICL7660ESA
Function
Inverting, Step Up
Output Voltage
- 1.5 V to - 10 V, 3 V to 20 V
Output Current
20 mA
Maximum Operating Temperature
+ 85 C
Package / Case
SOIC-8 Narrow
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
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and allow operation down to 1.5V. For low-voltage
operation and compatibility with the industry-standard
LTC1044 and ICL7660, the LV pin should be connect-
ed to ground for supply voltages below 3.5V and left
open for supply voltages above 3.5V.
The MAX1044’s LV pin can be grounded for all operat-
ing conditions. The advantage is improved low-voltage
performance and increased oscillator frequency. The
disadvantage is increased quiescent current and
reduced efficiency at higher supply voltages. For
Maxim’s ICL7660, the LV pin must be left open for
supply voltages above 5V.
When operating at low supply voltages with LV open,
connections to the LV, BOOST, and OSC pins should
be short or shielded to prevent EMI from causing
oscillator jitter.
For normal operation, leave the BOOST and OSC pins
of the MAX1044/ICL7660 open and use the nominal
oscillator frequency. Increasing the frequency reduces
audio interference, output resistance, voltage ripple,
and required capacitor sizes. Decreasing frequency
reduces quiescent current and improves efficiency.
The MAX1044/ICL7660 do not have a precise oscillator
frequency. Only minimum values of 1kHz and 5kHz for
the MAX1044 and a typical value of 10kHz for the
ICL7660 are specified. If a specific oscillator frequency
is required, use an external oscillator to drive the OSC
pin.
For the MAX1044, connecting the BOOST pin to the V+
pin raises the oscillator frequency by a factor of about 6.
Figure 5. Basic Negative Voltage Converter
10µF
C1
Oscillator Frequency Considerations
1
2
3
4
Oscillator Frequency Specifications
_______________________________________________________________________________________
MAX1044
ICL7660
Switched-Capacitor Voltage Converters
Increasing Oscillator Frequency
8
7
6
5
Using the BOOST Pin
*REQUIRED FOR V+ < 3.5V
*
C
BYPASS
V+
V
OUT
-(V+)
C2
10µF
Figure 6. Negative Voltage Converter with C
Figure 6 shows this connection. Higher frequency oper-
ation lowers output impedance, reduces output ripple,
allows the use of smaller capacitors, and shifts switch-
ing noise out of the audio band. When the oscillator is
driven externally, BOOST has no effect and should be
left open. The BOOST pin should also be left open for
normal operation.
An external capacitor can be connected to the OSC pin
to lower the oscillator frequency (Figure 6). Lower
frequency operation improves efficiency at low load
currents by reducing the IC’s quiescent supply current.
It also increases output ripple and output impedance.
This can be offset by using larger values for C1 and C2.
Connections to the OSC pin should be short to prevent
stray capacitance from reducing the oscillator frequency.
Driving OSC with an external oscillator is useful when
the frequency must be synchronized, or when higher
frequencies are required to reduce audio interference.
The MAX1044/ICL7660 can be driven up to 400kHz.
The pump and output ripple frequencies are one-half
the
MAX1044/ICL7660 at a higher frequency increases the
ripple frequency and allows the use of smaller
capacitors. It also increases the quiescent current.
The OSC input threshold is V+ - 2.5V when V+ ≥ 5V,
and is V+ / 2 for V+ < 5V. If the external clock does not
swing all the way to V+, use a 10kΩ pull-up resistor
(Figure 7).
The MAX1044/ICL7660 output voltage is not regulated.
The output voltages will vary under load according to
the output resistance. The output resistance is primarily
Overdriving the OSC Pin with an External Oscillator
10µF
Reducing the Oscillator Frequency Using C
external
1
2
3
4
Output Voltage Considerations
clock
MAX1044
frequency.
8
7
6
5
V
OUT
OSC
10µF
Driving
CONNECTION
FROM V+
TO BOOST
-(V+)
and BOOST
V+
C
OSC
OSC
the
7
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