ACPL-0820-000E Avago Technologies US Inc., ACPL-0820-000E Datasheet - Page 10

ACPL-0820-000E

Manufacturer Part Number

ACPL-0820-000E

Description

Dual Line Driver,LF

Manufacturer

Avago Technologies US Inc.

Type

Driverr

Datasheet

1.ACPL-0820-500E.pdf (10 pages)

Specifications of ACPL-0820-000E

Number Of Drivers/receivers

2/0

Voltage - Supply

4.75 V ~ 5.25 V

Mounting Type

Surface Mount

Package / Case

SO-8

Supply Voltage (max)

5.25 V

Supply Voltage (min)

4.75 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Supply Current

40 mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Protocol

Lead Free Status / Rohs Status

Details

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Download datasheet (377Kb)

Line Driver

The dual line drivers combined is capable of driving power-

line load impedances with output signals up to 7 VPP. The

biasing point of the line driver is controlled internally. The

biasing point set enables optimum modulation frequencies

up to 150 kHz.

The outputs of the line drivers are coupled onto the pow-

erline using a simple differential mode LC coupling circuit

as shown in Figure 18. Refer to Table 1 for some typical

component values. Capacitors C5 & C6 and inductor L3

attenuate the 50/60 Hz powerline transmission frequency.

A suitable value for L3 can range in value from 200 µH to 1

mH. To reduce the series coupling impedance at the modu-

lation frequency, L1 & L2 are included to compensate for the

reactive impedance of C3 & C4. These inductors should be

of a low resistance type capable of meeting the peak cur-

rent requirements. To meet safety regulatory requirements,

capacitors C5 & C6 need to be of X2 safety rated. Since these

types of capacitors typically have a very wide tolerance

range of 20%, it is recommended to use as low a Q factor as

possible for the L1/C3 & L2/C4 combinations.

Figure 18. LC coupling network.

Table 1. Typical component values for LC coupling network.

Although the series coupling impedance is minimized to re-

duce insertion loss, it has to be sufficiently large to limit the

peak current to the desired level in the worst expected pow-

erline load condition. The peak output current is effectively

limited by the total series coupling resistance, which is made

up of the series resistance of L1 & L2, the series resistance of

the fuse and any other resistive elements connected in the

coupling network.

For product information and a complete list of distributors, please go to our web site:

Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies, Limited in the United States and other countries.

AV02-0131EN - October 29, 2007

Vout1

Vout2

Carrier Frequency

110

120

132

150

(kHz)

330µH

LC Coupling

L1 (or L2) (µH)

6.8

Type X2

220nF

C3 (or C4) (nF)

150

220

www.avagotech.com

To reduce power dissipation when not operating in transmit

mode the line driver stage is shut down to a low power high

impedance state (or tri-state) by pulling the Tx-en input (pin

4) to a logic low state.

External Transient Voltage Protection

To protect ACPL-0820 against high voltage transients

caused by voltage surges and disconnecting/connecting

the modem, it is necessary to add external bi-directional

transient voltage protectors such as D1, D2 (both 5V rated)

& D3 (7V rated) as shown in Figure 17 in the circuit. But care

must be taken to ensure that the total output capacitance

as seen by each output is not more than 1nF to prevent

oscillations.

Another mandatory protection against AC power surges

from the mains can be achieved by adding an appropriate

Metal Oxide Varistor (MOV) across the powerline terminals

after the fuse.

Internal Protection and Sensing

ACPL-0820 includes 2 sensing and protection features to

ensure robust operation under wide ranging environmental

conditions.

The 1st protection features is the over-temperature shut-

down. This particular feature protects the line driver stage

from over-temperature stress. Should the IC junction tem-

perature reach a level above 150°C, the line driver circuit will

be shut down and the output of Status (pin 1) is pulled to

the logic low state simultaneously.

The 2nd feature is load detection sensing feature. The pow-

erline impedance is quite unpredictable and varies not just

at different connection points but is also time variant. ACPL-

0820 includes this current sensing feature, which may be

utilized to feedback information on the instantaneous pow-

erline load conditions. Should the output current reaches a

level greater than 0.5 App, the status pin output is pulled

to a logic low state for the entire duration when the peak

current is exceeding -0.25 A, as shown in Figure 10. Using

the period of the pulse together with the known coupling

impedance, the actual powerline load can be calculated.

Table 2 shows the logic output of the Status pin.

Table 2. Status pin logic output.

Status output

Normal

High

Over-Temperature

Low

Low (pulsed)

out

< -0.25 A

ACPL-0820-000E Avago Technologies US Inc., ACPL-0820-000E Datasheet - Page 10

ACPL-0820-000E

Specifications of ACPL-0820-000E

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