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| HCPL-7710-000E Datasheet, PDF (12/18 Pages) AVAGO TECHNOLOGIES LIMITED – 40 ns Propagation Delay, CMOS Optocoupler | |||
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Digital Field Bus Communication Networks
To date, despite its many drawÂbacks, the 4 - 20 mA
analog current loop has been the most widely accepted
standard for implementing process control systems.
In todayâs manufacturing environment, however,
automated systems are expected to help manage
the process, not merely monitor it. With the advent
of digital field bus communication networks such as
DeviceNet, PROFIBUS, and Smart Distributed Systems
(SDS), gone are the days of constrained information.
Controllers can now receive multiple readings from field
devices (sensors, actuators, etc.) in addition to diagnos-
tic information.
The physical model for each of these digital field bus
communicaÂtion networks is very similar as shown in
Figure 17. Each includes one or more buses, an interface
unit, optical isolation, transceiver, and sensing and/or
actuating devices.
CONTROLLER
BUS
INTERFACE
OPTICAL
ISOLATION
TRANSCEIVER
FIELD BUS
TRANSCEIVER
OPTICAL
ISOLATION
BUS
INTERFACE
TRANSCEIVER
OPTICAL
ISOLATION
BUS
INTERFACE
TRANSCEIVER
OPTICAL
ISOLATION
BUS
INTERFACE
TRANSCEIVER
OPTICAL
ISOLATION
BUS
INTERFACE
XXXXXX
DEVICE
CONFIGURATION
MOTOR
STARTER
YYY
MOTOR
CONTROLLER
Figure 17. Typical field bus communication physical model.
HCPL-0710 fig 16
SENSOR
Optical Isolation for Field Bus Networks
To recognize the full benefits of these networks, each
recomÂmends providing galvanic isolation using Avago
optocouplers. Since network communication is bi-direc-
tional (involving receiving data from and transmitting
data onto the network), two Avago optocouplers are
needed. By providing galvanic isolation, data integrity is
retained via noise reduction and the elimination of false
signals. In addition, the network receives maximum pro-
tection from power system faults and ground loops.
Within an isolated node, such as the DeviceNet Node
shown in Figure 18, some of the nodeâs components are
referenced to a ground other than V- of the network.
These components could include such things as devices
with serial ports, parallel ports, RS232 and RS485 type
ports. As shown in Figure 18, power from the network is
used only for the transceiver and input (network) side of
the optocouplers.
Isolation of nodes connected to any of the three types of
digital field bus networks is best achieved by using the
HCPL-x710 optocouplers. For each network, the HCPL-
x710 satisify the critical propagation delay and pulse
width distortion requireÂments over the temperature
range of 0°C to +85°C, and power supply voltage range
of 4.5âV toâ5.5âV.
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