NSC LM2660MX, LM2660MMX, LM2660MM, LM2660M Datasheet

LM2660/LM2661
Switched Capacitor Voltage Converter

General Description

The LM2660/LM2661 CMOS charge-pump voltage con­verter inverts a positive voltage in the range of 1.5V to 5.5V
to thecorresponding negative voltage. The LM2660/LM2661
uses two low cost capacitors to provide 100 mA of output
current without the cost, size, and EMI related to inductor
based converters. With an operating current of only 120 µA
and operating efficiency greater than 90%at most loads, the
LM2660/LM2661 provides ideal performance for battery
powered systems. The LM2660/LM2661 may also be used
as a positive voltage doubler.

The oscillator frequency can be lowered by adding an exter­nal capacitor to the OSC pin.Also, the OSC pin may be used
to drive the LM2660/LM2661 with an external clock. For
LM2660, a frequency control (FC) pin selects the oscillator
frequency of 10 kHz or 80 kHz. For LM2661, an external
shutdown (SD) pin replaces the FC pin. The SD pin can be
used to disable the device and reduce the quiescent current
to 0.5 µA. The oscillator frequency for the LM2661 is 80 kHz.

Features

n Inverts or doubles input supply voltage
n Narrow SO-8 and Mini SO-8 Package
n 6.5Ω typical output resistance
n 88%typical conversion efficiency at 100 mA
n (LM2660) selectable oscillator frequency: 10 kHz/80 kHz
n (LM2661) low current shutdown mode

Applications

n Laptop computers
n Cellular phones
n Medical instruments
n Operational amplifier power supplies
n Interface power supplies
n Handheld instruments

Basic Application Circuits

Voltage Inverter

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Positive Voltage Doubler

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Splitting VINin Half

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September 1999

LM2660/LM2661 Switched Capacitor Voltage Converter

© 1999 National Semiconductor Corporation DS012911 www.national.com

Absolute Maximum Ratings (Note 1)

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.

Supply Voltage (V+ to GND, or GND to OUT) 6V
LV (OUT − 0.3V) to (GND + 3V)
FC, OSC The least negative of (OUT − 0.3V)

or (V+ − 6V) to (V+ + 0.3V)
V+ and OUT Continuous Output Current 120 mA
Output Short-Circuit Duration to GND (Note 2) 1 sec.

Package

MMM

Power Dissipation

(T

A

=

25˚C) (Note 3) 735 mW 500 mW

T

J

Max (Note 3) 150˚C 150˚C

θ

JA

(Note 3) 170˚C/W 250˚C/W

Operating Junction
Temperature

Range −40˚C to +85˚C
Storage Temperature Range −65˚C to +150˚C
Lead Temperature 300˚C

(Soldering, 10 seconds)
ESD Rating 2 kV

Electrical Characteristics

Limits in standard typeface are for T

J

=

25˚C, and limits in boldface type apply over the full operating temperature range. Un-

less otherwise specified: V+=5V, FC=Open, C

1

=

C

2

=

150 µF. (Note 4)

Symbol Parameter Condition Min Typ Max Units

V+ Supply Voltage R

L

=

1k Inverter, LV=Open 3.5 5.5

Inverter, LV=GND 1.5 5.5 V
Doubler, LV=OUT 2.5 5.5

I

Q

Supply Current No Load FC=Open (LM2660) 0.12 0.5

mALV=Open FC=V+ (LM2660) or

1 3

SD=Ground (LM2661)

I

SD

Shutdown Supply Current

0.5 2 µA

(LM2661)

V

SD

Shutdown Pin Input Voltage Shutdown Mode 2.0 (Note 5)

V

(LM2661) Normal Operation 0.3

I

L

Output Current TA≤ +85˚C, OUT ≤ −4V 100

mA

T

A

>

+85˚C, OUT ≤ −3.8V 100

R

OUT

Output Resistance (Note 6) I

L

=

100 mA T

A

≤ +85˚C 6.5 10

Ω

T

A

>

+85˚C 12

f

OSC

Oscillator Frequency (Note 7) OSC=Open FC=Open 5 10

kHz

FC=V+ 40 80

f

SW

Switching Frequency (Note 8) OSC=Open FC=Open 2.5 5

kHz

FC=V+ 20 40

I

OSC

OSC Input Current FC=Open

±

2

µA

FC=V+

±

16

P

EFF

Power Efficiency RL(1k) between V+and OUT 96 98

R

L

(500) between GND and OUT 92 96

%

I

L

=

100 mA to GND 88

V

OEFF

Voltage Conversion Efficiency No Load 99 99.96

%

Note 1: Absolute maximum ratings indicate limits beyond which damage to the device may occur. Electrical specifications do not apply when operating the device
beyond its rated operating conditions.

Note 2: OUT may be shorted to GND for one second without damage. However, shorting OUT to V+ may damage the device and should be avoided. Also, for tem­peratures above 85˚C, OUT must not be shorted to GND or V+, or device may be damaged.

Note 3: The maximum allowable power dissipation is calculated by using P

DMax

=

(T

JMax−TA

)/θJA, where T

JMax

is the maximum junction temperature, TAis the

ambient temperature, and θ

JA

is the junction-to-ambient thermal resistance of the specified package.

Note 4: In the test circuit, capacitors C

1

and C2are 0.2Ω maximum ESR capacitors. Capacitors with higher ESR will increase output resistance, reduce output volt-

age and efficiency.
Note 5: In doubling mode, when V

out

>

5V, minimum input high for shutdown equals V

out

−3V.

Note 6: Specified output resistance includes internal switch resistance and capacitor ESR.
Note 7: For LM2661, the oscillator frequency is 80 kHz.
Note 8: The output switches operate at one half of the oscillator frequency, f

OSC

=

2f

SW

.

LM2660/LM2661

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Test Circuits

Typical Performance Characteristics

(Circuit of

Figure 1

)

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FIGURE 1. LM2660 and LM2661 Test Circuits

Supply Current vs
Supply Voltage

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Supply Current vs
Oscillator Frequency

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Output Source
Resistance vs Supply
Voltage

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Output Source
Resistance vs
Temperature

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Efficiency vs Load
Current

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Output Voltage Drop
vs Load Current

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LM2660/LM2661

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Typical Performance Characteristics (Circuit of

Figure 1

) (Continued)

Efficiency vs
Oscillator Frequency

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Output Voltage vs
Oscillator Frequency

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Oscillator Frequency
vs External
Capacitance

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Oscillator Frequency
vs Supply Voltage
(FC=V+)

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Oscillator Frequency
vs Supply Voltage
(FC=Open)

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Oscillator Frequency
vs Temperature
(FC=V+)

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Oscillator Frequency
vs Temperature
(FC=Open)

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Shutdown Supply
Current vs
Temperature
(LM2661 Only)

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LM2660/LM2661

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