ICL7660S: Super Voltage Converter

The ICL7660S and ICL7660A Super Voltage Converters are monolithic CMOS voltage conversion ICs that guarantee significant performance advantages over other similar devices. They are direct replacements for the industry standard ICL7660 offering an extended operating supply voltage range up to 12V, with lower supply current. A Frequency Boost pin has been incorporated to enable the user to achieve lower output impedance despite using smaller capacitors. All improvements are highlighted in the “Electrical Specifications” section on page 3 of the datasheet. Critical parameters are guaranteed over the entire commercial and industrial temperature ranges.

The ICL7660S and ICL7660A perform supply voltage conversions from positive to negative for an input range of 1.5V to 12V, resulting in complementary output voltages of -1.5V to -12V. Only two non-critical external capacitors are needed, for the charge pump and charge reservoir functions. The ICL7660S and ICL7660A can be connected to function as a voltage doubler and will generate up to 22.8V with a 12V input. They can also be used as a voltage multipliers or voltage dividers.

Each chip contains a series DC power supply regulator, RC oscillator, voltage level translator, and four output power MOS switches. The oscillator, when unloaded, oscillates at a nominal frequency of 10kHz for an input supply voltage of 5.0V. This frequency can be lowered by the addition of an external capacitor to the “OSC” terminal, or the oscillator may be over-driven by an external clock.

The “LV” terminal may be tied to GND to bypass the internal series regulator and improve low voltage (LV) operation. At medium to high voltages (3.5V to 12V), the LV pin is left floating to prevent device latchup.

In some applications, an external Schottky diode from VOUT to CAP- is needed to guarantee latchup free operation (see Do’s and Dont’s section on page 8 of the datasheet).

Key Features
  • Guaranteed Lower Max Supply Current for All Temperature Ranges
  • Wide Operating Voltage Range: 1.5V to 12V
  • 100% Tested at 3V
  • Boost Pin (Pin 1) for Higher Switching Frequency
  • Guaranteed Minimum Power Efficiency of 96%
  • Improved Minimum Open Circuit Voltage Conversion Efficiency of 99%
  • Improved SCR Latchup Protection
  • Simple Conversion of +5V Logic Supply to ±5V Supplies
  • Simple Voltage Multiplication VOUT = (-)nVIN
  • Easy to Use; Requires Only Two External Non-Critical Passive Components
  • Improved Direct Replacement for Industry Standard ICL7660 and Other Second Source Devices
  • Pb-Free Available (RoHS Compliant)
Applications
  • Simple Conversion of +5V to ±5V Supplies
  • Voltage Multiplication VOUT = ±nVIN
  • Negative Supplies for Data Acquisition Systems andInstrumentation
  • RS232 Power Supplies
  • Supply Splitter, VOUT = ±VS
Typical Diagram
Application Notes
TitleTypeUpdatedSizeOther Languages
AN9601: Using the HI7190 with Single +5V SupplyPDF13 Nov 201428 KB
AN051: Principles and Applications of the ICL7660 CMOS Voltage ConverterPDF13 Nov 2014228 KB
Datasheets
TitleTypeUpdatedSizeOther Languages
ICL7660S, ICL7660A DatasheetPDF22 Dec 2014379 KB
ICL7660, ICL7660A DatasheetPDF14 Nov 2014272 KB
Order Information
Part NumberPackage TypeWeight(g)PinsMSL RatingPeak Temp (°C)RoHS Status
ICL7660SCBA8 Ld SOIC0.07281240
ICL7660SCBA-T8 Ld SOIC T+R0.07281240
ICL7660SCBAZ8 Ld SOIC0.07281260RoHS
ICL7660SCBAZ-T8 Ld SOIC T+R0.07281260RoHS
ICL7660SCBAZA8 Ld SOIC0.0728260RoHS
ICL7660SCBAZA-T8 Ld SOIC T+R0.0728260RoHS
ICL7660SCPA8 Ld PDIP0.548N/ANA
ICL7660SCPAZ8 Ld PDIP0.548N/ANARoHS
ICL7660SIBA8 Ld SOIC0.07281240
ICL7660SIBAT8 Ld SOIC T+R0.07281240
ICL7660SIBAZ8 Ld SOIC0.07281260RoHS
ICL7660SIBAZA8 Ld SOIC0.0728260RoHS
ICL7660SIBAZAT8 Ld SOIC T+R0.0728260RoHS
ICL7660SIBAZT8 Ld SOIC T+R0.07281260RoHS
ICL7660SIPA8 Ld PDIP0.548N/ANA
ICL7660SIPAZ8 Ld PDIP0.548N/ANARoHS
ICL7660S, ICL7660A Datasheet 22 Dec 2014
ICL7660, ICL7660A Datasheet 14 Nov 2014
8 Ld SOIC T+R ISL84514
8 Ld PDIP ISL84542
ICL7660S
AN9601: Using the HI7190 with Single +5V Supply 13 Nov 2014
AN051: Principles and Applications of the ICL7660 CMOS Voltage Converter 13 Nov 2014