HCPL-7860 Datasheet, PDF(25/28 Page) Agilent(Hewlett-Packard) – Isolated 15-bit A/D Converter

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HCPL-7860 Datasheet, PDF (25/28 Pages) Agilent(Hewlett-Packard) – Isolated 15-bit A/D Converter

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Analog Interfacing

Power Supplies and

Bypassing

The recommended application

circuit is shown in Figure 21. A

floating power supply (which in

many applications could be the

same supply that is used to drive

the high-side power transistor) is

regulated to 5 V using a simple

zener diode (D1); the value of

resistor R1 should be chosen to

supply sufficient current from the

existing floating supply. The

voltage from the current sensing

resistor or shunt (Rsense) is

applied to the input of the HCPL-

7860 (U2) through an RC anti-

aliasing filter (R2 and C2). And

finally, the output clock and data

of the isolated modulator are

connected to the digital interface

IC. Although the application

circuit is relatively simple, a few

recommendations should be

followed to ensure optimal

performance.

The power supply for the isolated

modulator is most often obtained

from the same supply used to

power the power transistor gate

FLOATING

POSITIVE

SUPPLY

HV+

GATE DRIVE

CIRCUIT

drive circuit. If a dedicated

supply is required, in many cases

it is possible to add an additional

winding on an existing trans-

former. Otherwise, some sort of

simple isolated supply can be

used, such as a line powered

transformer or a high-frequency

DC-DC converter.

An inexpensive 78L05 three-

terminal regulator can also be

used to reduce the floating supply

voltage to 5 V. To help attenuate

high-frequency power supply

noise or ripple, a resistor or

inductor can be used in series

with the input of the regulator to

form a low-pass filter with the

regulatorâs input bypass

capacitor.

As shown in Figure 21, 0.1 ÂµF

bypass capacitors (C1 and C3)

should be located as close as

possible to the input and output

power-supply pins of the isolated

modulator (U2). The bypass

capacitors are required because

of the high-speed digital nature of

the signals inside the isolated

modulator. A 0.01 ÂµF bypass

+5V

capacitor (C2) is also recom-

mended at the input due to the

switched-capacitor nature of the

input circuit. The input bypass

capacitor also forms part of the

anti-aliasing filter, which is

recommended to prevent high-

frequency noise from aliasing

down to lower frequencies and

interfering with the input signal.

PC Board Layout

The design of the printed circuit

board (PCB) should follow good

layout practices, such as keeping

bypass capacitors close to the

supply pins, keeping output

signals away from input signals,

the use of ground and power

planes, etc. In addition, the layout

of the PCB can also affect the

isolation transient immunity

(CMR) of the isolated modulator,

due primarily to stray capacitive

coupling between the input and

the output circuits. To obtain

optimal CMR performance, the

layout of the PC board should

minimize any stray coupling by

maintaining the maximum

possible distance between the

input and output sides of the

circuit and ensuring

MOTOR

+-

RSENSE

R1

D1

5.1 V

R2 39 â¦

C1

0.1 ÂµF

C2

0.01 ÂµF

VDD1

VIN+

VIN-

GND1

VDD2

MCLK

MDAT

GND2

HCPL-7860

HV-

Figure 21. Recommended Application Circuit.

1-284

C3

0.1 ÂµF

CCLK

CLAT

CDAT

MCLK1

MDAT1

MCLK2

MDAT2

GND

VDD

CHAN

SCLK

SDAT

CS

THR1

OVR1

RESET

HCPL-X870

TO

CONTROL

CIRCUIT

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