ATR2731-ILQY Atmel, ATR2731-ILQY Datasheet - Page 8

ATR2731-ILQY

Manufacturer Part Number

ATR2731-ILQY

Description

IC DAB ONE-CHIP FRONT END 44SSOP

Manufacturer

Atmel

Datasheet

1.ATR2731-ILQY.pdf (26 pages)

Specifications of ATR2731-ILQY

Rf Type

DAB, Broadcast Radio

Frequency

70MHz ~ 260MHz

Features

8.5V Supply Voltage

Package / Case

44-SSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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5. IF Part

5.1

5.2

5.3

IF Gain-controlled Amplifier

IF Gain-controlled Amplifier/Mixer Combination

IF AGC Voltage-generation Block

ATR2731

The signal applied to the balanced input pins IFIN1 and IFIN2 is amplified by a gain-controlled IF

amplifier. The gain-control signal is generated by an IF AGC voltage-generation block which is

described in the next section. To avoid offset problems, the output of the gain-controlled ampli-

fier is fed to an amplifier/mixer combination by AC coupling.

Depending on the setting of the two-wire bus bits M2, M3, the output signal of the gain-controlled

IF amplifier is either mixed down to a lower, second IF or, after passing an output buffer stage,

amplified before it appears at the single-ended output pin IFOUT. If the down-conversion option

is chosen, this circuit still offers two possibilities concerning the synthesis of the IF mixer’s LO

signal. This LO signal is derived from the PLL's on-chip reference oscillator. By means of the

two-wire bus bits M2 and M3, it can be decided whether the reference frequency is doubled

before it is given to the mixer's LO port, or if it is used directly. The gain-control voltage of the

amplifier/mixer combination is similar to the gain-controlled IF amplifier generated by an internal

gain-control circuit.

The purpose of this gain-control circuit in the IF part is to measure the power of the incoming sig-

nal at the balanced input pins IFAGCIN1 and IFAGCIN2, to compare it with a certain power

level, and to generate a control voltage for the IF gain-controlled amplifiers and mixer. This

architecture offers the possibility of ensuring an optimal use of the dynamic range of the A/D

converter which transforms the output signal at pin IFOUT from the analog to the digital domain

despite possible insertion losses of (anti-aliasing) filters which are arranged in front of the con-

verter. Such a constellation is indicated in the application circuit in

The incoming signal at the balanced input pins IFAGC1 and IFAGC2 passes a power-measure-

ment process similar to that described in

flexibility reasons, no band-pass filtering is implemented. The voltage derived in this process is

compared to a voltage threshold (th3) which is defined by an on-chip 4-bit D/A converter. The

setting of this converter is defined by the two-wire bus bits TCi (i = 1, 2, 3, 4). Depending on the

result of this comparison, a charge pump feeds a positive or negative current to pin CPIF in

order to charge or discharge an external capacitor. The current of this charge pump can be

selected using the pins WAGC and SLI

Table 5-1.

The function can be seen in

WAGC

High

Low

Current of Charge Pump

Figure 13-6 on page

High

Low

SLI

(Table

“RF AGC Voltage-generation Block” on page

5-1):

24.

Charge-pump Current

190 µA (fast mode)

50 µA (slow mode)

Figure 12-1 on page

Off

4904A–DAB–03/06

20.

7. For

ATR2731-ILQY Atmel, ATR2731-ILQY Datasheet - Page 8

ATR2731-ILQY

Specifications of ATR2731-ILQY

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