HC5503CBZ Intersil, HC5503CBZ Datasheet - Page 10

HC5503CBZ

Manufacturer Part Number

HC5503CBZ

Description

Manufacturer

Intersil

Datasheet

1.HC5503CBZ.pdf (17 pages)

Specifications of HC5503CBZ

Number Of Channels

On-hook Transmission

Yes

Polarity Reversal

On-chip Ring Relay Driver

Yes

Longitudinal Balanced

Operating Supply Voltage (typ)

Operating Temp Range

0C to 70C

Loop Current Limit

30mA

Operating Temperature Classification

Commercial

Pin Count

Mounting

Surface Mount

Operating Supply Voltage (max)

5.25V

Operating Supply Voltage (min)

4.75V

Lead Free Status / RoHS Status

Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

HC5503CBZ

Manufacturer:

HARRIS

Quantity:

20 000

Current page: 10 of 17
Download datasheet (848Kb)

The longitudinal amplifier’s principal function is Ring Trip

Detection. The output of the amplifier after being filtered by R

and C

output inhibits the ring relay driver to remove ringing signals

from the line in an off-hook condition, reference Figure 8.

Ringing The Line

The Ring Command (RC) input is taken low during ringing.

This activates the ring relay driver (RD) output providing the

telephone is not off-hook or the line is not in a power denial

state. The ring relay connects the ring generator to the

subscriber loop. The ring generator output is usually an

80V

150V peak. Since the telephone ringer is AC coupled only

ring current will flow. This ringing current flows directly into

terminal RFS is provided so that the low impedance V

node can be isolated from the hot end of the ring path in the

battery referenced ring scheme.

The AC ring current flowing in the subscriber circuit will be

sensed across R

output of the longitudinal amplifier. R

this signal before it reaches the ring trip detector to prevent

false ring trip. C

When the subscriber goes off-hook, a DC path is established

between the output of the ring generator and the battery

ground or V

established since no tip feed current is flowing through the

tip feed resistors. The longitudinal amplifier output is driven

negative. Once it exceeds the ring trip threshold of the ring

trip detector, the logic circuitry is driven by GK to trip the ring

relay establishing an off-hook condition such that SHD will

become active as loop metallic current starts to flow.

In addition to its ability to be used for tip or ring injected

systems, the HC5503 can also be configured for systems

utilizing balanced ringing. The main advantage of balanced

ringing is that it tends to minimize cross coupling effects owing

to the differential nature of the ring tone across the line.

Figure 5 illustrates the sequence of events during ring trip with

ring synchronization for a tip injected ring system. Note that

BAT

RMS

FIGURE 4. DC LOOP CURRENT CHARACTERISTICS

via a set of relay contacts. The high impedance

to attenuate AC signals is fed into a detector whose

, 20Hz signal. The ring signal should not exceed

LOOP

BAT

terminal. A DC longitudinal imbalance is

= R

is nominally set at 1.0µF.

, and will give rise to an AC voltage at the

+ R

533

+ Z

LOOP

HC5503 I

(Ω)

+ Z

+ R

LOOP

and C

LINE

SATURATION

+ R

SET

attenuate

HC5503

owing to the 90 degree phase shift introduced by the low pass

filter (R

point of the attenuated ring signal that is fed into the ring trip

detector. Hence, when DC conditions are established for

SHD, the AC component actually assists ring trip taking place.

For a ring side injected ring system, the RS pulse should

occur at the positive zero crossing of the ring signal as it

appears at RFS . If ring synchronization is not used, then the

RS pin should be held permanently to a logic high of 5V

nominally: ring trip will occur asynchronously with respect to

the ring voltage. Ring trip is guaranteed to take place within

three ring cycles after the telephone going off-hook.

It is recommended that an RC snubber network is placed

across the ring relay contacts to minimize inductive kick-

back effects from the telephone ringer. Typical values for

such a network are shown in Figure 10.

Transhybrid Circuit

The purpose of the transhybrid circuit is to remove the

receive signal (R

preventing an echo on the transmit side. This is

accomplished by using an external op amp (usually part of

the CODEC) and by the inversion of the signal from the

4-wire receive port (R

Figure 6 shows the transhybrid circuit. Because the voltage

at R

input signal will be subtracted from the output signal if I

equals I

The voltage at T

gains, and is therefore equal to 0.633. The voltage at R

when taking into account the negative feedback through R

THRESHOLD

150V

4-2

150V

= 0.633) and 2-wire to 4-wire (A

PEAK

is 180 degrees out of phase with the voltage at T

RING

TRIP

MAX

------ -

. Node analysis yields the following Equation:

, C

------- -

) the RS pulse will occur at the most negative

FIGURE 5. RING TIP SEQUENCE

SUBSCRIBER

GOES OFF-HOOK

) from the transmit signal (T

is the product of the 4-wire to 2-wire

DC CURRENT DIFFERENCE

BETWEEN I

) to the 4-wire transmit port (T

DC SHIFT OWING TO

>50µs

TIP

AND I

2-4

RING

= -1.0) voltage

RING RELAY

HAS TRIPPED

), thereby

TO 0V

QUIESCENT

VALUE

CHARGES

(EQ. 24)

, the

HC5503CBZ Intersil, HC5503CBZ Datasheet - Page 10

HC5503CBZ

Specifications of HC5503CBZ

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