TDA8261TW Philips Semiconductors, TDA8261TW Datasheet - Page 6

TDA8261TW

Manufacturer Part Number

TDA8261TW

Description

Satellite Zero-IF QPSK/8PSK downconverter with PLL synthesizer

Manufacturer

Philips Semiconductors

Datasheet

1.TDA8261TW.pdf (22 pages)

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

TDA8261TW/C1

Manufacturer:

NXP

Quantity:

1 616

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Philips Semiconductors

FUNCTIONAL DESCRIPTION

The TDA8261TW contains the core of the RF analog part

of a digital satellite receiver. The signal coming from the

Low Noise Block (LNB) is coupled through a Low Noise

Amplifier (LNA) to the RF inputs. The circuitry in the

TDA8261TW performs the Zero-IF quadrature frequency

conversion and the two in-phase (IBBOUT) and

quadrature (QBBOUT) output signals can be used directly

to feed a SDD circuit.

The relative phase of I and Q signals is measured on the

baseband outputs, when a sine wave unmodulated carrier

at f

TDA8261TW (see Fig.3).

2004 Dec 02

handbook, halfpage

spectrum

input

output

Satellite Zero-IF QPSK/8PSK

downconverter with PLL synthesizer

signal

+ 1 MHz is present at the RF input of the

Fig.3 Relative phase of I and Q signals.

channel Q

channel I

f lo

output phase

f RF = f lo 1 MHz

frequency

MBL864

The TDA8261TW has a gain controlled amplifier which is

controlled by the SDD.

An external VCO tank circuit is connected between

pins TKA and TKB. The main elements of the external

tank circuit are an SMD coil and a varactor diode. The

tuning voltage of 0 to 30 V covers the whole frequency

range from 237.5 to 543.75 MHz. The internal loop

controls a fully integrated VCO to cover the range

950 to 2175 MHz. The VCO provides both in-phase and

quadrature signals to drive the two mixers.

The TDA8261TW integrates all elements necessary to

control the varactor tuned oscillator except a 4 MHz crystal

and a loop filter. It includes a fast phase detector with high

comparison frequency to get the lowest phase noise level

in the local oscillator.

The f

through the fast phase comparator where it is compared in

both phase and frequency with the comparison frequency

pins XT1 and XT2 (f

divider. The buffered XTOUT signal can drive the crystal

frequency input of the SDD, saving a crystal in the

application.

The output of the phase comparator drives the charge

pump and loop amplifier section. The loop amplifier

includes a high voltage transistor to handle the 30 V tuning

voltage at pin VT, this drives a variable capacitance diode

in the external circuit of the voltage controlled oscillator.

Pin CP is the output of the charge pump. The loop filter is

connected between pins CP and VT and the post-filter

section is connected between pin VT and the variable

capacitance diode.

For test and alignment purposes, it is possible to release

the tuning voltage output and apply an external voltage on

pin VT and to select the charge pump function to sink

current, source current or to be switched off.

COMP

DIV

). f

output of the15-bit programmable divider passes

COMP

is derived from the signal present at the

XTAL

) divided-down by the reference

TDA8261TW

Product speciﬁcation

TDA8261TW Philips Semiconductors, TDA8261TW Datasheet - Page 6

TDA8261TW

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