SA639DH NXP Semiconductors, SA639DH Datasheet - Page 6

SA639DH

Manufacturer Part Number

SA639DH

Description

Manufacturer

NXP Semiconductors

Datasheet

1.SA639DH.pdf (16 pages)

Specifications of SA639DH

Operating Supply Voltage

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Lead Free Status / Rohs Status

Compliant

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Philips Semiconductors

CIRCUIT DESCRIPTION

The SA639 is an IF signal processing system suitable for second IF

or single conversion systems with input frequency as high as 1GHz.

The bandwidth of the IF amplifier is about 40MHz, with 44dB(v) of

gain from a 50 source. The bandwidth of the limiter is about

28MHz with about 58dB(v) of gain from a 50 source. However, the

gain/bandwidth distribution is optimized for 9.8MHz, 330 source

applications. The overall system is well-suited to battery operation

as well as high performance and high quality products of all types,

such as digital cordless phones.

The input stage is a Gilbert cell mixer with oscillator. Typical mixer

characteristics include a noise figure of 11dB, conversion power gain

of 9.2dB, and input third-order intercept of -9.5dBm. The oscillator

will operate in excess of 1GHz in L/C tank configurations. Hartley or

Colpitts circuits can be used up to 100MHz for xtal configurations.

Butler oscillators are recommended for xtal configurations up to

150MHz.

The output of the mixer is internally loaded with a 330 resistor

permitting direct connection to a 330 ceramic filter. The input

resistance of the limiting IF amplifiers is also 330 . With most 330

ceramic filters and many crystal filters, no impedance matching

network is necessary. To achieve optimum linearity of the log signal

strength indicator, there must be a 6dB(v) insertion loss between the

first and second IF stages. If the IF filter or interstage network does

not cause 6dB(v) insertion loss, a fixed or variable resistor can be

added between the first IF output (Pin 20) and the interstage

network.

The signal from the second limiting amplifier goes to a Gilbert cell

quadrature detector. One port of the Gilbert cell is internally driven

by the IF. The other output of the IF is AC-coupled to a tuned

quadrature network. This signal, which now has a 90 phase

relationship to the internal signal, drives the other port of the

multiplier cell.

Overall, the IF section has a gain of 90dB. For operation at

intermediate frequency at 9.8MHz. Special care must be given to

layout, termination, and interstage loss to avoid instability.

The demodulated output (DATA) of the quadrature is a low

impedance voltage output. This output is designed to handle a

minimum bandwidth of 1MHz. This is designed to demodulate

wideband data, such as in DECT applications.

Post Detection Filter Amplifier

The filter amplifier may be used to realize a group delay optimized

low pass filter for post detection. The filter amplifier can be

configured for Sallen & Key low pass with Bessel characteristic and

a 3dB cut frequency of about 800kHz.

The filter amplifier provides a gain of 0dB. The output impedance is

less than 500 in order to reduce frequency response changes as a

result of amplifier load variations. The filter amplifier has a 3dB

bandwidth of at least 4 MHz in order to keep the amplifier’s

1998 Feb 10

Low voltage mixer FM IF system with filter amplifier

and data switch

for DECT cordless telephone. This signal drives an internal op amp.

frequency response influence on the filter group delay characteristic

at a minimum. At the center of the carrier it is mandatory to provide

a filter output DC bias voltage of 1.6V in order to be within the input

common mode range of the external data comparator. The filter

output DC bias voltage specification holds for an exactly center

tuned demodulator tank and for the demodulator output connected

to the filter amplifier input.

Data Switch

The SA639 incorporates an active data switch used to derive the

data comparator reference voltage by means of an external

integration circuit. The data switch is typically closed for 10 s

before and during reception of the synchronization word pattern, and

is otherwise open. The external integration circuit is formed by an

R/C low pass with a time constant of 5 to 10 s.

The active data switch provides excellent tracking behavior over a

DC input range of 1.2 to 2.0V. For this range with an RC load (no

static current drawn), the DC output voltage will not differ more than

designed to behave like a non-linear charge pump (to allow fast

tracking of the input signal without slew rate limitations under

dynamic conditions of a 576kHz input signal with 400mV

RC load), the output signal will have a 340mV

average that will not vary from the input DC average by more than

The data switch is able to sink/source 3mA from/to the external

integration circuit in order to minimize the settling time after long

power-down periods (DECT paging mode). In addition, during

power-down conditions a reference voltage of approximately 1.6V

will be used as the input to the switch. The switch will be in a low

current mode to maintain the voltage on the external RC load. This

will further reduce the settling time of the capacitor after power-up.

It should be noted that during power-down the switch can only

source and sink a trickle current (10 A). Thus, the user should

make sure that other circuits (like the data comparator inputs) are

not drawing current from the RC circuit.

The data switch provides a slew rate better than 1V/ s in order to

track with system DC offset from receive slot to receive slot (DECT

idle lock or active mode). When the data switch is opened the

output is in a tri-state mode with a leakage current of less than

100nA. This reduces discharge of the external integration circuit.

When powered-down, the data switch will output a reference of

approximately 1.6V to maintain a charge on the external RC circuit.

A Receive Signal Strength Indicator (RSSI) completes the circuitry.

The output range is greater than 80dB and is temperature

compensated. This log signal strength indicator exceeds the criteria

The op amp is capable of rail-to-rail output. It can be used for gain,

filtering, or 2nd-order temperature compensation of the RSSI, if

needed.

NOTE: dB(v) = 20log V

5mV from the input voltage. Since the active data switch is

10mV.

OUT

P-P

Product specification

output with a DC

SA639

P-P

and the

SA639DH NXP Semiconductors, SA639DH Datasheet - Page 6

SA639DH

Specifications of SA639DH

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