MAX1683EUK+T Maxim Integrated Products, MAX1683EUK+T Datasheet - Page 5

MAX1683EUK+T

Manufacturer Part Number

MAX1683EUK+T

Description

IC VOLT DBLR SW CAP SOT23-5

Manufacturer

Maxim Integrated Products

Type

Switched Capacitor (Charge Pump), Doublerr

Datasheet

1.MAX1682EUK-T.pdf (9 pages)

Specifications of MAX1683EUK+T

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

4 ~ 11 V

Current - Output

45mA

Frequency - Switching

35kHz

Voltage - Input

2 ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

SOT-23-5, SC-74A, SOT-25

Power - Output

571mW

Function

Step Up

Output Voltage

4 V to 11 V

Output Current

45 mA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The MAX1682/MAX1683 capacitive charge pumps

double the voltage applied to their input. Figure 1

shows a simplified functional diagram of an ideal volt-

age doubler. During the first half-cycle, switches S1

and S2 close, and capacitor C1 charges to V

the second half cycle, S1 and S2 open, S3 and S4

close, and C1 is level shifted upward by V

connects C1 to the reservoir capacitor C2, allowing

energy to be delivered to the output as necessary. The

actual voltage is slightly lower than 2 x V

switches S1–S4 have resistance and the load drains

charge from C2.

The MAX1682/MAX1683 have a finite output resistance

of about 20Ω (Table 2). As the load current increases,

the devices’ output voltage (V

equals the current drawn from V

output impedance (R

_____________________Pin Description

Figure 1. Simplified Functional Diagram of Ideal Voltage

Doubler

_______________Detailed Description

NAME

GND

OUT

C1+

DROOP

OUT

C1-

= 2 x V

_______________________________________________________________________________________

= I

Ground

Doubled Output Voltage. Connect C2

between OUT and GND.

Negative Terminal of the Flying

Capacitor

Input Supply

Positive Terminal of the Flying

Capacitor

OUT

), as follows:

Switched-Capacitor Voltage Doublers

- V

x R

DROOP

Charge-Pump Output

OUT

FUNCTION

OUT

) droops. The droop

times the circuit’s

volts. This

OUT

. During

, since

The power efficiency of a switched-capacitor voltage

converter is affected by three factors: the internal losses

in the converter IC, the resistive losses of the capacitors,

and the conversion losses during charge transfer

between the capacitors. The total power loss is:

The internal losses are associated with the IC’s internal

functions, such as driving the switches, oscillator, etc.

These losses are affected by operating conditions such

as input voltage, temperature, and frequency.

The next two losses are associated with the voltage

converter circuit’s output resistance. Switch losses

occur because of the on-resistance of the MOSFET

switches in the IC. Charge-pump capacitor losses

occur because of their ESR. The relationship between

these losses and the output resistance is as follows:

where f

the effective resistance from an ideal switched-

capacitor circuit (Figures 2a and 2b).

Figure 2a. Switched-Capacitor Model

Figure 2b. Equivalent Circuit

PUMP CAPACITOR LOSSES

OUT

ΣP

≅

OSC

V+

LOSS

OUT

(

V+

OSC

ESR

is the oscillator frequency. The first term is

EQUIV

)

x R

EQUIV

x C

INTERNAL LOSSES

× C1

OUT

PUMP CAPACITOR LOSSES

CONVERSION LOSSES

Efficiency Considerations

SWITCHES

SWITCH LOSSES

OUT

ESR

MAX1683EUK+T Maxim Integrated Products, MAX1683EUK+T Datasheet - Page 5

MAX1683EUK+T

Specifications of MAX1683EUK+T

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