LE87213AFQC Zarlink, LE87213AFQC Datasheet - Page 11

LE87213AFQC

Manufacturer Part Number

LE87213AFQC

Description

World Wide xDSL Line Driver 32-Pin QFN EP Tray

Manufacturer

Zarlink

Datasheet

1.LE87213AFQC.pdf (14 pages)

Specifications of LE87213AFQC

Package

32QFN EP

Transmission Media Type

Cable

Power Supply Type

Analog

Typical Operating Supply Voltage

3.3 V

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Current page: 11 of 14
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Transformer Turns Ratio

The transformer turns ratio N is restricted by the maximum peak differential signal at AY/BY pins, which must stay within the

Le87213A device's dynamic range. The output voltage range is typically equal to |V

The maximum peak voltage (across 100 Ω at TIP (A) and RING (B) leads of a FDM ADSL signal using 224 downstream carriers

for a combined rms power of 19.85 dBm and a peak-to-rms ratio of 5.8) is 36.05 V

across Z

be 39.15 V

be calculated as

The transformer turns ratio for a nominal battery voltage of –52 V is then N=2.45:1.

The Le87213A device is designed to operate with battery voltage in the range of –42 V to –72 V. The data transformer turns ratio

can be optimized for the specific battery voltage range, but the turns ratio must be limited to less than 2.7:1 secondary to primary

(where the primary side is connected to TIP (A) and RING (B)) if 19.85 dBm needs to be produced at the output. This limitation

is imposed by the Le87213A device internal bias levels.

Downstream Filtering

The input differential impedance (R

value external resistor R

A high-pass filter with a –3 dB corner frequency of

is formed by C

where

In addition to rejecting the low frequency signals from the data AFE, the input capacitors also block DC currents from flowing

between DDWNP/DDWNN and the data AFE outputs. With the recommended R

signal level.

RECEIVER AND HYBRID CIRCUIT

The receive and hybrid circuit architecture depends greatly on the data AFE being used in the design. Some data AFEs have

built-in input differential amplifiers for the receive circuits. These amplifiers should be used to implement the receive and hybrid

= C

= 1.5 nF provides a corner frequency of around 25 kHz. Resistors R

SEC

, this voltage must be scaled up by a factor of 1.086. The required peak differential signal at the AY/BY pins would

or 19.6 V

and C

in conjunction with R

is used to set the differential input impedance (refer to the data path reference design).

per driver if the transformer had a 1:1 turn ratio. Using this information the transformer turns ratio can

Figure 3. Downstream Gain of the

10K

DDWN

) of the DDWNP/DDWNN pins can vary by as much as ± 30%, and consequently a lower

to attenuate the low frequency noise of the downstream signal

100K

Zarlink Semiconductor Inc.

DWNHPF

= R

Frequency Hz

------------------- -

----------------------------- -

db(V

+ R

BAT

LOOP

19.6V

⋅

LOOP

=100 ohms

--------------------------

2πR

–

+ (R

/VTX)

Application Circuit, on page 8

1000K

|| R

10,

DDWN

)

value of 5.49 kΩ, R

and R

BATmin

differential. To account for the voltage drop

10000K

| – 4 V.

can be used to adjust the downstream

= R

= 2.67 kΩ and

LE87213AFQC Zarlink, LE87213AFQC Datasheet - Page 11

LE87213AFQC

Specifications of LE87213AFQC

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