STLC3055N STMicroelectronics, STLC3055N Datasheet - Page 13

STLC3055N

Manufacturer Part Number

STLC3055N

Description

Manufacturer

STMicroelectronics

Datasheet

1.STLC3055N.pdf (34 pages)

Specifications of STLC3055N

Number Of Channels

On-hook Transmission

Yes

Polarity Reversal

Yes

On-chip Ring Relay Driver

Longitudinal Balanced

Operating Supply Voltage (typ)

Operating Temp Range

-40C to 85C

Package Type

TQFP

Loop Current Limit

40mA

Operating Temperature Classification

Industrial

Pin Count

Mounting

Surface Mount

Operating Current

55mA

Operating Supply Voltage (max)

12V

Operating Supply Voltage (min)

5.5V

Lead Free Status / RoHS Status

Not Compliant

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STLC3055N

4.2.4

Figure 6.

The waveform so generated is then filtered and injected on the line.

The low pass filter can be obtained using the integrated buffer OP1 connected between pin

FTTX (OP1 non inverting input) and RTTX (OP1 output) (see

"Sallen and Key" configuration. Depending on the external components count it is possible

to build an optimised application depending on the distortion level required. In particular

harmonic distortion levels equal to 13 %, 6 % and 3 % can be obtained respectively with

first, second and third order filters (see

The circuit showed in

page 20

Once the shaped and filtered signal is obtained at RTTX buffer output it is injected on the

TIP/RING pins with a +6 dB gain or +12 dB gain.

It should be noted that this is the nominal condition obtained in presence of ideal TTX echo

cancellation (obtained via proper setting of RTTX and CTTX).

In addition, the effective level obtained on the line will depend on the line impedance and the

protection resistors value. In the typical application (TTX line impedance =200 Ω, RP = 50 Ω,

and ideal TTX echo cancellation) the metering pulse level on the line will be 1.33 or 2.66

times the level applied to the RTTX pin.

As already mentioned the metering pulse echo cancellation is obtained by means of two

external components (RTTX and CTTX) that should match the line impedance at the TTX

frequency. This simple network has a double effect:

●

Ringing

When this mode is selected STLC3055N self generate an higher negative battery (-70 V

typ.) in order to allow a balanced ringing signal of typically 65 Vpeak.

In this condition both the DC and AC feedback are disabled and the SLIC line drivers

operate as voltage buffers. The ring waveform is obtained toggling the D2 control bit at the

Synthesize a low output impedance at the TIP/RING pins at the TTX frequency.

Cut the eventual TTX echo that will be transferred from the line to the TX output.

CKTTX

is related to the simple first order filter.

Square wave pulse metering

GENERATOR

SHAPING

BURST

Metering pulse generation circuit.

Figure 8: Application diagram with metering pulse generation. on

CTTX1

CTTX2

RLV

SQTTX

Figure

Low Pass Filter

6).

CFL

Required external components vs. filter order.

Order

FTTX

CFL

OP1

Figure

Sinusoidal wave

pulse metering

Functional description

6) and implementing a

RTTX

THD

13%

13/34

STLC3055N STMicroelectronics, STLC3055N Datasheet - Page 13

STLC3055N

Specifications of STLC3055N

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