MAX1584 Datasheet, PDF(25/29 Page) Maxim Integrated Products

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MAX1584 Datasheet, PDF (25/29 Pages) Maxim Integrated Products – 5-Channel Slim DSC Power Supplies

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5-Channel Slim DSC Power Supplies

VBATT

1ÂµF

PVSU

DL_

WHITE

LEDS

AUX_

PWM

FB_

62â¦

(FOR 20mA)

MAX1585

(PARTIAL)

NOTE: THIS CIRCUIT CAN

OPERATE WITH AUX1 OR

AUX2 ON THE MAX1584, AND WITH

AUX1 ON THE MAX1585.

Figure 6. AUX_ Channel Powering a White LED Step-Up

Current Source

Transformerless Inverter for Negative CCD

Bias (AUX2, MAX1585)

On the MAX1585, AUX2 is set up to drive an external P-

channel MOSFET in an inverting configuration. DL2 dri-

ves low to turn on the MOSFET, and FB2 has inverted

polarity and a 0V threshold. This is useful for generating

negative CCD bias without a transformer, particularly

with high pixel-count cameras that have a greater neg-

ative CCD load current. Figures 1 and 8 show such a

configuration for the MAX1585.

Boost with Charge Pump for Positive and

Negative Outputs

Another method of producing bipolar output voltages

without a transformer is with an AUX controller and a

charge-pump circuit as shown in Figure 9. When MOS-

FET Q1 turns off, the voltage at its drain rises to supply

current to VOUT+. At the same time, C1 charges to the

voltage VOUT+ through D1. When the MOSFET turns on,

C1 discharges through D3, thereby charging C3 to VOUT-

minus the drop across D3 to create roughly the same

voltage as VOUT+ at VOUT-, but with inverted polarity.

If different magnitudes are required for the positive and

negative voltages, a linear regulator can be used at one

of the outputs to achieve the desired voltages. One such

VBATT

MAX1584

MAX1585

(PARTIAL)

AUX

PWM

PVSU

DL_

FB_

NOTE: THIS CIRCUIT CAN OPERATE WITH AUX1

OR AUX2 ON THE MAX1584, AND WITH AUX1 ON THE MAX1585.

+15V

50mA

CCD+

-7.5V

30mA

CCD-

Figure 7. +15V and -7.5V CCD Bias with Transformer

connection is shown in Figure 10. This circuit is some-

what unique in that a positive-output linear regulator is

able to regulate a negative voltage output. It does this by

controlling the charge current flowing to the flying

capacitor rather than directly regulating at the output.

SEPIC Boost-Buck

The MAX1584/MAX1585sâ internal switch step-up and

step-down can be cascaded to make a high-efficiency

boost-buck converter, but it is sometimes desirable to

build a second boost-buck converter with an AUX_

controller.

One type of step-up/step-down converter is the SEPIC,

shown in Figure 11. Inductors L1 and L2 can be sepa-

rate inductors or can be wound on a single core and

coupled like a transformer. Typically, a coupled inductor

improves efficiency since some power is transferred

through the coupling so less power passes through the

coupling capacitor (C2). Likewise, C2 should have low

ESR to improve efficiency. The ripple-current rating must

be greater than the larger of the input and output cur-

rents. The MOSFET (Q1) drain-source voltage rating and

the rectifier (D1) reverse-voltage rating must exceed the

sum of the input and output voltages. Other types of

step-up/step-down circuits are a flyback converter and a

step-up converter followed by a linear regulator.

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