hc5523 Intersil Corporation, hc5523 Datasheet - Page 13

hc5523

Manufacturer Part Number

hc5523

Description

Lssgr/tr57 Co/loop Carrier Slic With Low Power Standby

Manufacturer

Intersil Corporation

Datasheet

1.HC5523.pdf (22 pages)

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A simplified schematic of the ground key detector is shown

in Figure 18. Ground key, is the process in which the ring

terminal is shorted to ground for the purpose of signaling an

Operator or seizing a phone line (between the Central Office

and a Private Branch Exchange). The Ground Key detector

is activated when unequal current flow through resistors R

and R

transconductance amplifier (gm

of gm

less than the internal current source (I

and the output of the ground key comparator is low. If I

greater than the internal current source (I

on and the output of the ground key comparator is high. With

the output of the ground key comparator high, and the logic

configured for ground key detect, the DET pin goes low. The

ground key detector has a built in hysteresis of typically 5mA

between its trigger and reset values.

Ring Trip Detector

Ring trip detection is accomplished with the internal ring trip

comparator and the external circuitry shown in Figure 19.

The process of ring trip is initiated when the logic input pins

are in the following states: E0 = 0, E1 = 1/0, C1 = 1 and

C2 = 0. This logic condition connects the ring trip

comparator to the DET output, and causes the Ringrly pin to

energize the ring relay. The ring relay connects the tip and

ring of the phone to the external circuitry in Figure 19. When

the phone is on-hook the DT pin is more positive than the

DR pin and the DET output is high. For off-hook conditions

DR is more positive than DT and DET goes low. When DET

goes low, indicating that the phone has gone off-hook, the

SLIC is commanded by the logic inputs to go into the active

state. In the active state, tip and ring are once again

connected to the phone and normal operation ensues.

Figure 19 illustrates battery backed unbalanced ring injected

ringing. For tip injected ringing just reverse the leads to the

phone. The ringing source could also be balanced.

NOTE: The DET output will toggle at 20Hz because the DT input is

not completely filtered by C

and determine if the DET pin is low for more that half the time, if so

the off-hook condition is indicated.

. This results in a current (I

and the differential (I

. Software can examine the duty cycle

TIP

-I

) that is equal to the product

RING

) out of the

) loop current. If I

), then diode D

is on

HC5523

Longitudinal Impedance

The feedback loop described in Figure 20(A, B) realizes the

desired longitudinal impedances from tip to ground and from

ring to ground. Nominal longitudinal impedance is resistive

and in the order of 22Ω.

In the presence of longitudinal currents this circuit attenuates

the voltages that would otherwise appear at the tip and ring

terminals, to levels well within the common mode range of

the SLIC. In fact, longitudinal currents may exceed the

programmed DC loop current without disturbing the SLIC’s

VF transmission capabilities.

The function of this circuit is to maintain the tip and ring

voltages symmetrically around V

longitudinal currents. The differential transconductance

amplifiers G

the required current to maintain V

When a longitudinal current is injected onto the tip and ring

inputs, the voltage at V

appears between the input terminals of the differential

transconductance amplifiers G

and G

feed the differential inputs of current sources I

respectively. I

ended and 500 differentially, thus leading to a change in I

and I

The circuit shown in Figure 20(B) illustrates the tip side of

the longitudinal network. The advantages of a differential

input current source are: improved noise since the noise due

to current source 2I

to differential current gain and minimized offset error at the

Operational Amplifier inputs via the two 5kΩ resistors.

BAT

FIGURE 19. RING TRIP CIRCUIT FOR BATTERY BACKED

/2. When V

that is equal to 500(∆I) and 500(∆I

are the differential currents ∆I

RINGING

and G

RELAY

RING

and I

RING

TIP

changes by the amount DVC, this change

is now correlated, power savings due

accomplish this by sourcing or sinking

have current gains of 250 single

moves from it’s equilibrium value

RINGRLY

BAT

and G

at V

/2, in the presence of

and ∆I

BAT

. The output of G

COMPARATOR

RING TRIP

HC5523

/2.

, which in turn

and I

DET

hc5523 Intersil Corporation, hc5523 Datasheet - Page 13

hc5523

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