ICL7660S Datasheet, PDF(5/9 Page) Intersil Corporation

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ICL7660S Datasheet, PDF (5/9 Pages) Intersil Corporation – Super Voltage Converter

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ICL7660S

Typical Performance Curves (Test Circuit Figure 12) (Continued)

V+ = 5V

TA = 25oC

400

I = 10mA

C1 = C2 =

1ÂµF

C1 = C2 =

300

10ÂµF

C1 = C2 =

200

100ÂµF

100

10k

100k

OSCILLATOR FREQUENCY (Hz)

NOTE:

FIGURE 11. OUTPUT SOURCE RESISTANCE AS A FUNCTION OF OSCILLATOR FREQUENCY

7. These curves include in the supply current that current fed directly into the load RL from the V+ (See Figure 12). Thus, approximately half the

supply current goes directly to the positive side of the load, and the other half, through the ICL7660S, to the negative side of the load. Ideally,

VOUT â¼ 2VIN, IS â¼ 2IL, so VIN x IS â¼ VOUT x IL.

Detailed Description

The ICL7660S contains all the necessary circuitry to

complete a negative voltage converter, with the exception of

2 external capacitors which may be inexpensive 10ÂµF

polarized electrolytic types. The mode of operation of the

device may be best understood by considering Figure 13,

which shows an idealized negative voltage converter.

Capacitor C1 is charged to a voltage, V+, for the half cycle

when switches S1 and S3 are closed. (Note: Switches S2

and S4 are open during this half cycle.) During the second

half cycle of operation, switches S2 and S4 are closed, with

S1 and S3 open, thereby shifting capacitor C1 to C2 such

that the voltage on C2 is exactly V+, assuming ideal switches

and no load on C2. The ICL7660S approaches this ideal

situation more closely than existing non-mechanical circuits.

V+

IS V+

(+5V)

C1 +

10ÂµF -

ICL7660S

-VOUT

C2 -

10ÂµF +

NOTE: For large values of COSC (>1000pF) the values of C1 and C2

should be increased to 100ÂµF.

FIGURE 12. ICL7660S TEST CIRCUIT

In the ICL7660S, the 4 switches of Figure 13 are MOS power

switches; S1 is a P-Channel devices and S2, S3 and S4 are

N-Channel devices. The main difï¬culty with this approach is

that in integrating the switches, the substrates of S3 and S4

must always remain reverse biased with respect to their

sources, but not so much as to degrade their âONâ

resistances. In addition, at circuit start up, and under output

short circuit conditions (VOUT = V+), the output voltage must

be sensed and the substrate bias adjusted accordingly.

Failure to accomplish this would result in high power losses

and probable device latchup.

This problem is eliminated in the ICL7660S by a logic network

which senses the output voltage (VOUT) together with the

level translators, and switches the substrates of S3 and S4 to

the correct level to maintain necessary reverse bias.

The voltage regulator portion of the ICL7660S is an integral

part of the anti-latchup circuitry, however its inherent voltage

drop can degrade operation at low voltages. Therefore, to

improve low voltage operation âLVâ pin should be connected

to GND, disabling the regulator. For supply voltages greater

than 3.5V the LV terminal must be left open to insure latchup

proof operation, and prevent device damage.

Theoretical Power Efï¬ciency

Considerations

In theory a voltage converter can approach 100% efï¬ciency

if certain conditions are met:

1. The drive circuitry consumes minimal power.

2. The output switches have extremely low ON resistance

and virtually no offset.

3. The impedance of the pump and reservoir capacitors are

negligible at the pump frequency.

3-40

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