ISL5585 Datasheet, PDF(19/22 Page) Intersil Corporation – 3.3V Ringing SLIC Family for Voice Over Broadband VOB

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ISL5585 Datasheet, PDF (19/22 Pages) Intersil Corporation – 3.3V Ringing SLIC Family for Voice Over Broadband VOB

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ISL5585

High Battery Operation

Other than during ringing, the high battery should be used

for standby conditions which must provide MTU compliance.

During standby operation the power consumption is typically

85mW with -100V battery. If ringing requirements do not

require full 100V operation, then a lower battery will result in

lower standby power.

High Voltage Decoupling

The 100V rating of the device will require a capacitor of

higher voltage rating for decoupling. Suggested decoupling

values for all device pins are 0.1ÂµF. Standard surface mount

ceramic capacitors are rated at 100V. For applications

driven at low cost and small size, the decoupling scheme

shown below could be implemented.

0.22Âµ 0.22Âµ

VBL VBH

ISL5585

FIGURE 14. ALTERNATE DECOUPLING SCHEME

It is important to place the external diode between the VBH

pin and the decoupling capacitor. Attaching the decoupling

capacitor directly to the VBH pin will degrade the reliability of

the device. Refer to Figure 14 for the proper arrangement.

This applies to both single and stacked and decoupling

arrangements.

If VBL and VBH are tied together to override the battery

switch function, then the external diode is not needed and

the decoupling may be attached directly to VBH.

Uncommitted Switch

Overview

The uncommitted switch is a three terminal device designed

for flexibility. The independent logic control input, SWC,

allows switch operation regardless of device operating

mode. The switch is activated by a logic low. The positive

and negative terminals of the device are labeled SW+ and

SW- respectively.

Relay Driver

The uncommitted switch may be used as a relay driver by

connecting SW+ to the relay coil and SW- to ground. The

switch is designed to have a maximum on voltage of 0.6V

with a load current of 45mA.

RELAY

SW+

SW-

SWC

FIGURE 15. EXTERNAL RELAY SWITCHING

Since the device provides the ringing waveform, the relay

functions which may be supported include subscriber

disconnect, test access or line interface bypass. An external

snubber diode is not required when using the uncommitted

switch as a relay driver.

Test Load

The switch may be used to connect test loads across Tip

and Ring. The test loads can provide external test

termination for the device. Proper connection of the

uncommitted switch to Tip and Ring is shown below.

TIP

RING

TEST

LOADSW+

SW-

SWC

FIGURE 16. TEST LOAD SWITCHING

The diode in series with the test load blocks current from

flowing through the uncommitted switch when the polarity of

the Tip and Ring terminals are reversed. In addition to the

reverse active state, the polarity of Tip and Ring are

reversed for half of the ringing cycle. With independent logic

control and the blocking diode, the uncommitted switch may

be continuously connected to the Tip and Ring terminals.

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