MAX1865TEEP+T Maxim Integrated Products, MAX1865TEEP+T Datasheet - Page 21

MAX1865TEEP+T

Manufacturer Part Number

MAX1865TEEP+T

Description

IC PWR SUPPLY CONTROLLER 20QSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX1864TEEE.pdf (25 pages)

Specifications of MAX1865TEEP+T

Applications

Power Supply Controller

Voltage - Input

4.5 ~ 28 V

Current - Supply

1.4mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-QSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Supply

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Do not use output capacitors with more than 200mΩ of

ESR. Typically, more output capacitance provides the

best solution, since this also reduces the output voltage

drop immediately after a load transient.

Connect at least a 1µF capacitor between the linear

regulator’s output and ground, as close to the

MAX1864/MAX1865 and external pass transistors as

possible. Depending on the selected pass transistor,

larger capacitor values may be required for stability

(see Stability Requirements). Furthermore, the output

capacitor’s ESR affects stability, providing a zero that

may be necessary to cancel the second pole. Use out-

put capacitors with an ESR less than 200mΩ to ensure

stability and optimum transient response.

Once the minimum capacitor value for stability is deter-

mined, verify that the linear regulator’s output does not

contain excessive noise. Although adequate for stabili-

ty, small capacitor values may provide too much band-

width, making the linear regulator sensitive to noise.

Larger capacitor values reduce the bandwidth, thereby

reducing the regulator’s noise sensitivity.

If noise on the ground reference causes the design to

be marginally stable for the negative linear regulator,

bypass the negative output back to its reference volt-

age (V

ential noise on the output.

The high-impedance base driver is susceptible to sys-

tem noise, especially when the linear regulator is lightly

loaded. Capacitively coupled switching noise or induc-

tively coupled EMI onto the base drive causes fluctua-

tions in the base current, which appear as noise on the

linear regulator’s output. Keep the base-drive traces

away from the step-down converter and as short as

possible to minimize noise coupling. Resistors in series

with the gate drivers (DH and DL) reduce the LX

switching noise generated by the step-down converter

(Figure 5). Additionally, a bypass capacitor may be

placed across the base-to-emitter resistor (Figure 7).

This bypass capacitor, in addition to the transistor’s

input capacitance, could bring in a second pole that

will destabilize the linear regulator (see Stability

Requirements). Therefore, the stability requirements

determine the maximum base-to-emitter capacitance:

REF

, Figure 7). This technique reduces the differ-

xDSL/Cable Modem Triple/Quintuple Output

POLE FB

Linear Regulator Output Capacitors

______________________________________________________________________________________

(

)

≈

Base-Drive Noise Reduction

2π

OUT ESR

where C

In systems where the step-down controller’s output is

not the highest voltage, a transformer may be used to

provide additional postregulated, high-voltage outputs.

The transformer generates unregulated, high-voltage

supplies that power the positive and negative linear

regulators. These unregulated supply voltages must be

high enough to keep the pass transistors from saturat-

ing. For positive output voltages, connect the trans-

former as shown in figure 6 where the minimum turns

ratio (N) is determined by:

where V

under full load. For negative output voltages (MAX1865

Figure 7. Base-Drive Noise Reduction

POLE(CBE)

a) POSITIVE OUTPUT VOLTAGE

b) NEGATIVE OUTPUT VOLTAGE (MAX1865 ONLY)

MAX1864

MAX1865

POS

≤

IN(Q)

SAT

2π

is the second pole required for stability.

≥

is the pass transistor’s saturation voltage

is the transistor’s input capacitance, and

POLE CBE

⎛

⎜

⎝

FB_

BF5

LDO POS

Power Supplies

(

)

⎛

⎜

⎝

)

R I

BE LOAD

OUT

SAT

Transformer Selection

BE T FE

V h

REF

DIODE

LDO

V h

PASS

T FE

-1

POS

⎞

⎟

⎠

⎞

⎟

⎠

BYP

NEG

IN Q

SUP

NEG

( )

MAX1865TEEP+T Maxim Integrated Products, MAX1865TEEP+T Datasheet - Page 21

MAX1865TEEP+T

Specifications of MAX1865TEEP+T

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