ADUM6402ARWZ Analog Devices Inc, ADUM6402ARWZ Datasheet - Page 19

ADUM6402ARWZ

Manufacturer Part Number

ADUM6402ARWZ

Description

IC ISOLATOR 4CH DCDC CONV 16SOIC

Manufacturer

Analog Devices Inc

Series

IsoPower®, iCoupler®r

Datasheet

1.ADUM6401ARWZ.pdf (24 pages)

Specifications of ADUM6402ARWZ

Propagation Delay

100ns

Inputs - Side 1/side 2

2/2

Number Of Channels

Isolation Rating

5000Vrms

Voltage - Supply

4.25V, 5V

Data Rate

1Mbps

Output Type

Logic

Package / Case

16-SOIC (3.9mm Width)

Operating Temperature

-40°C ~ 105°C

No. Of Channels

Supply Current

19mA

Supply Voltage Range

3V To 5.5V, 4.5V To 5.5V

Digital Ic Case Style

SOIC

No. Of Pins

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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APPLICATIONS INFORMATION

THEORY OF OPERATION

The dc-to-dc converter section of the ADuM640x works on

principles that are common to most modern power supplies.

It is a secondary side controller architecture with isolated pulse-

width modulation (PWM) feedback. V

oscillating circuit that switches current into a chip-scale air core

transformer. Power transferred to the secondary side is rectified

and regulated to either 3.3 V or 5 V. The secondary (V

controller regulates the output by creating a PWM control signal

that is sent to the primary (V

data channel. The PWM modulates the oscillator circuit to control

the power being sent to the secondary side. Feedback allows for

significantly higher power and efficiency.

The ADuM640x implement undervoltage lockout (UVLO) with

hysteresis on the V

converter does not go into oscillation due to noisy input power or

slow power-on ramp rates.

A minimum load current of 10 mA is recommended to ensure

optimum load regulation. Smaller loads can generate excess noise

on chip due to short or erratic PWM pulses. Excess noise gener-

ated this way can cause data corruption, in some circumstances.

PRINTED CIRCUIT BOARD (PCB) LAYOUT

The ADuM640x digital isolators with 0.5 W isoPower integrated

dc-to-dc converters require no external interface circuitry for

the logic interfaces. Power supply bypassing is required at the

input and output supply pins (see Figure 25). Note that a low

ESR bypass capacitor is required between Pin 1 and Pin 2, as

close to the chip pads as possible.

The power supply section of the ADuM640x uses a 180 MHz

oscillator frequency to efficiently pass power through its chip

scale transformers. In addition, normal operation of the data

section of the iCoupler introduces switching transients on the

power supply pins. Bypass capacitors are required for several

operating frequencies. Noise suppression requires a low

inductance, high frequency capacitor; ripple suppression

and proper regulation require a large value capacitor. These are

most conveniently connected between Pin 1 and Pin 2 for V

and between Pin 15 and Pin 16 for V

reduce ripple, a parallel combination of at least two capacitors

is required. The recommended capacitor values are 0.1 μF and

10 μF for V

example, use of a ceramic capacitor is advised.

Note that the total lead length between the ends of the low ESR

capacitor and the input power supply pin must not exceed 2 mm.

Installing the bypass capacitor with traces more than 2 mm in

length may result in data corruption. A bypass between Pin 1 and

Pin 8 and between Pin 9 and Pin 16 should also be considered

unless both common ground pins are connected together

close to the package.

DD1

. The smaller capacitor must have a low ESR; for

DD1

power input. This feature ensures that the

DD1

) side by a dedicated iCoupler

ISO

DD1

. To suppress noise and

power is supplied to an

ADuM6400/ADuM6401/ADuM6402/ADuM6403/ADuM6404

ISO

) side

DD1

Rev. 0 | Page 19 of 24

In applications involving high common-mode transients, ensure

that board coupling across the isolation barrier is minimized.

Furthermore, design the board layout such that any coupling

that does occur equally affects all pins on a given component side.

Failure to ensure this can cause voltage differentials between pins,

exceeding the absolute maximum ratings specified in Table 19,

thereby leading to latch-up and/or permanent damage.

The ADuM640x are power devices that dissipate about 1 W

of power when fully loaded and running at maximum speed.

Because it is not possible to apply a heat sink to an isolation

device, the devices primarily depend on heat dissipation into

the PCB through the GND pins. If the devices are used at high

ambient temperatures, provide a thermal path from the GND

pins to the PCB ground plane. The board layout in Figure 25

shows enlarged pads for Pin 8 and Pin 9. Large diameter vias

should be implemented from the pad to the ground, and power

planes should be used to reduce inductance. Multiple vias in the

thermal pads can significantly reduce temperatures inside the

chip. The dimensions of the expanded pads are left to the

discretion of the designer and the available board space.

THERMAL ANALYSIS

The ADuM640x parts consist of four internal die attached to a

split lead frame with two die attach paddles. For the purposes of

thermal analysis, the die is treated as a thermal unit, with the

highest junction temperature reflected in the θ

The value of θ

mounted on a JEDEC standard, 4-layer board with fine width

traces and still air. Under normal operating conditions, the

ADuM640x devices operate at full load across the full temperature

range without derating the output current. However, following

the recommendations in the Printed Circuit Board (PCB) Layout

section decreases thermal resistance to the PCB, allowing

increased thermal margins in high ambient temperatures.

BYPASS < 2mm

GND

DD1

DDL

Figure 25. Recommended Printed Circuit Board Layout

is based on measurements taken with the parts

from Table 14.

GND

ISO

SEL

ISO

ADUM6402ARWZ Analog Devices Inc, ADUM6402ARWZ Datasheet - Page 19

ADUM6402ARWZ

Specifications of ADUM6402ARWZ

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