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MAX860/MAX861

50mA, Frequency-Selectable,

Switched-Capacitor Voltage Converters

_______________General Description

The MAX860/MAX861 charge-pump voltage converters

invert input voltages ranging from +1.5V to +5.5V, or

double input voltages ranging from +2.5V to +5.5V.

Because of their high switching frequencies, these

devices use only two small, low-cost capacitors. Their

50mA output makes switching regulators unnecessary,

eliminating inductors and their associated cost, size,

and EMI. Greater than 90% efficiency over most of the

load-current range, combined with a typical operating

current of only 200µA (MAX860), provides ideal perfor-

mance for both battery-powered and board-level volt-

age-conversion applications.

A frequency-control (FC) pin provides three switching-

frequencies to optimize capacitor size and quiescent

current and to prevent interference with sensitive cir-

cuitry. Each device has a unique set of three available

— —

— –

frequencies. A shutdown (SHDN) pin reduces current

consumption to less than 1µA. The MAX860/MAX861

are suitable for use in applications where the ICL7660

and MAX660's switching frequencies are too low. The

MAX860/MAX861 are available in 8-pin µMAX

and

SO packages.

____________________________Features

8-Pin, 1.11mm High

µMAX

Package

Invert or Double the Input Supply Voltage

Three Selectable Switching Frequencies

High Frequency Reduces Capacitor Size

87% Efficiency at 50mA

200µA Quiescent Current (MAX860)

1µA Shutdown Supply Current

600mV Voltage Drop at 50mA Load

12Ω Output Resistance

______________Ordering Information

PART

MAX860ISA

MAX860IUA

MAX860C/D

MAX860ESA

MAX860MJA

MAX860MSA/PR3

MAX861ISA

MAX861IUA

MAX861C/D

MAX861ESA

MAX861MJA

TEMP RANGE

-25°C to +85°C

0°C to +70°C

-40°C to +85°C

-55°C to +125°C

-25°C to +85°C

0°C to +70°C

-40°C to +85°C

-55°C to +125°C

PIN-PACKAGE

8 SO

8 µMAX

Dice*

8 SO

8 CERDIP†

8 SO

8 µMAX

Dice*

8 SO

8 CERDIP†

________________________Applications

Portable Computers

Medical Instruments

Interface Power Supplies

Hand-Held Instruments

Operational-Amplifier Power Supplies

__________Typical Operating Circuit

C1 10μF 4

MAX860

MAX861

C1+

GND

C1-

SHDN

OUT

INPUT

VOLTAGE

+1.5V TO +5.5V

INVERTED

NEGATIVE

OUTPUT

10μF

*Dice

are tested at T

= +25°C, DC parameters only.

†

Contact factory for availability.

__________________Pin Configuration

TOP VIEW

VOLTAGE INVERTER

INPUT

VOLTAGE

+2.5V TO +5.5V

MAX860

MAX861

C1+

GND

C1-

SHDN

OUT

DOUBLED

POSITIVE

OUTPUT

10μF

FC 1

C1+ 2

GND 3

C1- 4

SHDN

OUT

MAX860

MAX861

10μF 4

POSITIVE VOLTAGE DOUBLER

SO/μMAX

µMAX is a registered trademark of Maxim Integrated Products, Inc.

For pricing, delivery, and ordering information, please contact Maxim Direct

at 1-888-629-4642, or visit Maxim’s website at www.maximintegrated.com.

19-0239; Rev 3; 8/13

MAX860/MAX861

50mA, Frequency-Selectable,

Switched-Capacitor Voltage Converters

ABSOLUTE MAXIMUM RATINGS

Supply Voltage (V

to GND or GND to OUT) ...................+6.0V

—

– ——–

Input Voltage Range (LV, FC, S H D N ) ...................(OUT - 0.3V)

to (V

+ 0.3V)

Continuous Output Current (OUT, V

) .............................60mA

Output Short-Circuit to GND (Note 1).......................................1s

Continuous Power Dissipation (T

= +70°C)

SO (derate 5.88mW/°C above +70°C) .........................471mW

µMAX (derate 4.2mW/°C above +70°C) ......................362mW

CERDIP (derate 8.00mW/°C above +70°C) .................640mW

Note 1:

Operating Temperature Ranges

MAX86_I_A ......................................................-25°C to +85°C

MAX86_ESA.....................................................-40°C to +85°C

MAX86_M_A ..................................................-55°C to +125°C

Storage Temperature Range .............................-65°C to +160°C

Lead Temperature (soldering, 10s) .................................+300°C

Soldering Temperature (reflow) .......................................+240°C

OUT may be shorted to GND for 1sec without damage, but 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

, even instantaneously, or device

damage may result.

Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional

operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to

absolute maximum rating conditions for extended periods may affect device reliability.

ELECTRICAL CHARACTERISTICS

— —

–— –

(Typical Operating Circuit (Inverter), V

= +5V, SHDN = V

, FC = LV = GND, C1 = C2 = 10µF (Note 2), T

= T

MIN

to T

MAX

, unless

otherwise noted. Typical values are at T

= +25°C.)

PARAMETER

Supply Voltage

SYMBOL

= 1kΩ

CONDITIONS

Inverter, LV = GND

Doubler, LV = OUT

FC = V

= 5V

MAX860I/E

FC = V

= 3V

FC = GND

FC = OUT

FC = V

MAX860M

No-Load Supply Current

(Note 3)

MAX861I/E

FC = GND

FC = OUT

FC = V

FC = GND

FC = OUT

FC = V

MAX861M

FC = GND

FC = OUT

= 5V, V

OUT

more negative than -3.75V

Output Current

OUT

= 3V, V

OUT

more negative than -2.5V

Output Resistance

(Note 4)

OUT

= 50mA

= 10mA, V

= 2V

100

0.3

1.1

2.5

MIN

1.5

2.5

0.2

0.07

0.6

1.4

1.0

2.5

0.4

1.3

3.3

0.4

2.0

5.0

0.5

2.6

6.5

TYP

MAX

5.5

0.3

UNITS

Maxim Integrated

MAX860/MAX861

50mA, Frequency-Selectable,

Switched-Capacitor Voltage Converters

— —

–— –

(Typical Operating Circuit (Inverter), V

= +5V, SHDN = V

, FC = LV = GND, C1 = C2 = 10µF (Note 2), T

= T

MIN

to T

MAX

, unless

otherwise noted. Typical values are at T

= +25°C.)

PARAMETER

SYMBOL

MAX860

Switching Frequency

(Note 5)

MAX861

FC Current (from V

)

FC < 4V

MAX860,

FC = V

= 2kΩ from V

to OUT

= 1kΩ from OUT

to GND

= 2kΩ from V

to OUT

= 1kΩ from OUT

to GND

CONDITIONS

FC = V

FC = GND

FC = OUT

FC = V

FC = GND

FC = OUT

MIN

160

TYP

130

100

250

-2

1.2

0.3

—

– ——–

S H D N < 0.3V

No load, V

OUT

= -4V

MAX86_I/E

MAX86_M

500

99.9

µA

µs

-4

µA

kHz

MAX

UNITS

ELECTRICAL CHARACTERISTICS (continued)

Power Efficiency (Note 6)

MAX861,

FC = V

MAX860/MAX861, FC = V

= 50mA to GND, C1 = C2 = 68µF

Voltage-Conversion Efficiency

— —

–— –

SHDN Threshold

Shutdown Supply Current

Time to Exit Shutdown

Note 2:

Note 3:

Note 4:

Note 5:

Note 6:

No load

LV = GND

C1 and C2 are low-ESR (<0.2Ω) aluminum electrolytics. Capacitor ESR adds to the circuit’s output resistance. Using

capacitors with higher ESR may reduce output voltage and efficiency.

MAX860/MAX861 may draw high supply current during startup, up to the minimum operating supply voltage. To guaran-

tee proper startup, the input supply must be capable of delivering 90mA more than the maximum load current.

Specified output resistance includes the effect of the 0.2Ω ESR of the test circuit’s capacitors.

The switches are driven directly at the oscillator frequency, without any division.

At lowest frequencies, using 10µF capacitors gives worse efficiency figures than using the recommended capacitor

values in Table 3, due to larger 1 ⁄ (f

x C1) term in R

OUT

Maxim Integrated

MAX860/MAX861

50mA, Frequency-Selectable,

Switched-Capacitor Voltage Converters

__________________________________________Typical Operating Characteristics

(All curves generated using the inverter circuit shown in the

Typical Operating Circuits

with LV = GND and T

= +25°C, unless other-

wise noted. Test results also valid for doubler mode with LV = OUT and T

= +25°C. All capacitor values used are those recom-

mended in Table 3, unless otherwise noted. The output resistance curves represent the resistance of the device itself, which is R

the equation for R

OUT

shown in the

Capacitor Selection

section.)

OUTPUT VOLTAGE DROP FROM

SUPPLY VOLTAGE vs. LOAD CURRENT

PERCENTAGE FREQUENCY CHANGE (%)

(FROM FREQUENCY MEASURED WITH V

= +5V)

MAX860-01

OSCILLATOR FREQUENCY vs.

SUPPLY VOLTAGE

MAX860-02

OUTPUT SOURCE RESISTANCE (R

) vs.

SUPPLY VOLTAGE

ALL FREQUENCIES

MAX860-03

0.8

0.7

0.6

OUT

DROP (V)

0.5

0.4

0.3

0.2

0.1

-2

-4

-6

-8

-10

-12

-14

ALL FREQUENCIES,

LV CONNECTED TO GND

(INVERTER) OR OUT (DOUBLER)

ALL FREQUENCIES

= +1.5V

= +2.5V

OUTPUT SOURCE RESISTANCE (Ω)

= +3.5V

= +4.5V, +5.0V

= +5.5V

1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5

SUPPLY VOLTAGE (V)

LOAD CURRENT (mA)

SUPPLY VOLTAGE (V)

OUTPUT SOURCE RESISTANCE (R

) vs.

TEMPERATURE

MAX860-04

MAX860

EFFICIENCY vs. LOAD CURRENT

MAX860-05

MAX860 SUPPLY CURRENT

vs. SUPPLY VOLTAGE

FC = V

400

DOUBLER, LV = OUT

MAX860-06

ALL FREQUENCIES

OUTPUT SOURCE RESISTANCE (Ω)

-60 -40 -20 0

= +5V

100

EFFICIENCY (%)

500

= +1.5V

= +3V

= +1.5V

= +3V

= +5V

SUPPLY CURRENT (μA)

300

INVERTER, LV = GND

> 3V)

200

INVERTER

FC = V

0.01

0.1

LOAD CURRENT (mA)

100

SUPPLY VOLTAGE (V)

20 40 60 80 100 120 140

TEMPERATURE (°C)

MAX861 SUPPLY CURRENT

vs. SUPPLY VOLTAGE

MAX860-07

MAX860 OUTPUT CURRENT vs. CAPACITANCE

HIGH-FREQUENCY MODE

OSC

= 130kHz

FC = OUT

LV = GND

INVERTER MODE

= +4.5V, V

OUT

= -3.5V

= +4.5V, V

OUT

= -4V

MAX860-08

MAX860 OUTPUT CURRENT vs. CAPACITANC

MEDIUM-FREQUENCY MODE

OUTPUT CURRENT (mA)

= +4.5V, V

OUT

= -4V

0.33

2.2

= +3V, V

OUT

= -2.7V

OSC

= 50kHz

FC = GND

LV = GND

INVERTER MODE

= +4.5V, V

OUT

= -3.5V

= +3V, V

OUT

= -2.4V

MAX860-09

500

FC = V

400

SUPPLY CURRENT (μA)

DOUBLER, LV = OUT

OUTPUT CURRENT (mA)

300

INVERTER, LV = GND

200

= +3V, V

OUT

= -2.4V

100

= +3V, V

OUT

= -2.7V

SUPPLY VOLTAGE (V)

0.33

2.2

4.7

CAPACITANCE (μF)

Maxim Integrated

MAX860/MAX861

50mA, Frequency-Selectable,

Switched-Capacitor Voltage Converters

____________________________Typical Operating Characteristics (continued)

(All curves generated using the inverter circuit shown in the

Typical Operating Circuits

with LV = GND and T

= +25°C, unless other-

wise noted. Test results also valid for doubler mode with LV = OUT and T

= +25°C. All capacitor values used are those recom-

mended in Table 3, unless otherwise noted. The output resistance curves represent the resistance of the device itself, which is R

the equation for R

OUT

shown in the

Capacitor Selection

section.)

MAX861

OUTPUT CURRENT vs. CAPACITANCE

HIGH-FREQUENCY MODE

MAX860-10

MAX861

OUTPUT CURRENT vs. CAPACITANCE

MEDIUM-FREQUENCY MODE

OUTPUT CURRENT (mA)

= +3V, V

OUT

= -2.7V

= +3V,

OUT

= -2.4V

= +4.5V,

OUT

= -4V

OSC

= 100kHz

FC = GND

LV = GND

INVERTER MODE

= +4.5V,

OUT

= -3.5V

MAX860-11

OUTPUT CURRENT (mA)

0.33

2.2

4.7

= +3V, V

OUT

= -2.7V

= +4.5V, V

OUT

= -4V

= +3V, V

OUT

= -2.4V

OSC

= 250kHz

FC = OUT

LV = GND

INVERTER MODE

= +4.5V,

OUT

= -3.5V

0.33

2.2

4.7

CAPACITANCE (μF)

______________________________________________________________Pin Description

FUNCTION

NAME

INVERTER

C1+

GND

C1-

OUT

— —

–— –

SHDN

Frequency Control, see Table 1

Flying-Capacitor Positive Terminal

Ground

Flying-Capacitor Negative Terminal

Negative Output

Low-Voltage-Operation Input. Connect to GND.

Active-Low Shutdown Input. Connect to V

if not

used. Connect to GND to disable the charge pump.

Positive Input Supply

DOUBLER

Frequency Control, see Table 1

Flying-Capacitor Positive Terminal

Positive Input Supply

Flying-Capacitor Negative Terminal

Ground

Low-Voltage-Operation Input. Connect to OUT.

Active-Low Shutdown Input. Connect to GND pin if not

used. Connect to OUT to disable the charge pump.

Doubled Positive Output

Maxim Integrated