ATR2731-ILQY Atmel, ATR2731-ILQY Datasheet - Page 7

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

Current page: 7 of 26
Download datasheet (572Kb)

4. RF Part

4.1

4.2

4.3

4904A–DAB–03/06

RF Gain-controlled Amplifier

RF Gain-controlled Mixer, VCO and LO Divider

RF AGC Voltage-generation Block

In order to support two different channels, two identical input buffers with balanced inputs

(RFA1, RFA2; RFB1, RFB2) are integrated. By setting the two-wire bus bits M0 and M1 (see

“Simple Two-wire Bus Functions” on page

followed by a gain-controlled amplifier whose output signal is fed to a gain-controlled mixer. The

RF amplifiers are capable of handling input signals up to a typical power of

causing third-order intermodulation components stronger than

The purpose of the RF mixer is to down-convert the incoming signal (band II, band III) to an IF

frequency, which is typically 38.912 MHz. This IF signal is fed to an AGC voltage-generation

block (which is described in the following section) and an output buffer stage. This driver stage

has a low output impedance and is capable of driving a SAW filter directly via its differential out-

put pins SAW1 and SAW2. The mixer's LO signal is generated by a balanced voltage-controlled

oscillator whose frequency is stabilized by a fractional-N phase-locked loop. An example circuit

of the VCO is shown in

C1VC, B2VC and C2VC as shown in the application circuit in

the VCO’s signal is fed to the RF mixer, it has to pass an LO divider block where the VCO fre-

quency is divided by either 1 or 2. The setting of this divider is defined by means of the two-wire

bus bits M0 and M1 as indicated in

offers the possibility of covering both band II and band III by tuning the VCO frequency in the

range between 200 MHz to 300 MHz.

In this functional block, the output signal of the RF mixer is amplified, weakly band-pass filtered

(transition range: X8 MHz to X80 MHz), rectified and finally low-pass filtered. The voltage

derived in this power-measurement process is compared to a voltage threshold (th1) which can

be digitally controlled by an on-chip 4-bit D/A converter. The setting of this converter is defined

by means of the two-wire bus bits TAi (i = 1, 2, 3, 4). Depending on the result of this comparison,

a charge pump feeds a positive or negative current to pin CPRF in order to charge or discharge

an external capacitor. The voltage of this external capacitor can be used to control the gain of an

external preamplifier or attenuator stage. Furthermore, it is also used to generate the internal

control voltages of an RF amplifier and mixer. For this purpose, the voltage at pin CPRF is com-

pared to a voltage threshold (th2) which is also controlled by an on-chip 4-bit D/A converter

whose setting is fixed by the two-wire bus bits TBi (i =1, 2, 3, 4).

The current of the RF AGC charge pump can be selected using the input pins WAGC and SLI

(Table

Table 4-1.

The function can be seen in

WAGC

High

Low

4-1):

Current of Charge Pump

Figure 13-6 on page

Figure 13-5 on page

High

Low

SLI

“Simple Two-wire Bus Functions” on page

12), the active buffer can be selected. The buffers are

24. The oscillator's tank is applied to the pins B1VC,

23.

Charge-pump Current [µA]

–

Figure 12-1 on page

40 dBc.

190 (fast mode)

50 (slow mode)

Off

ATR2731

–

12. This feature

6 dBm without

20. Before

ATR2731-ILQY Atmel, ATR2731-ILQY Datasheet - Page 7

ATR2731-ILQY

Specifications of ATR2731-ILQY

Related parts for ATR2731-ILQY