SL6610KG Zarlink Semiconductor Inc, SL6610KG Datasheet - Page 7

SL6610KG

Manufacturer Part Number

SL6610KG

Description

Direct Conversion FSK Data Receiver

Manufacturer

Zarlink Semiconductor Inc

Datasheet

1.SL6610KG.pdf (20 pages)

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SL6610

OPERATION OF SL6610

use up to 470MHz. It is available in a 28 pin SSOP package

and it integrates all the facilities required for the conversion of

an RF FSK signal to a base-band data signal.

Low Noise Amplifier

incorporate a Low Noise RF Amplifier at the front end of the

receiver. This is easily biased using the on chip voltage and

current sources provided.

amplifier, receiver and mixers should be RF decoupled using

suitable capacitors (see fig.4 for a suitable Low-Noise-

Amplifier).

Local Oscillator

quadrature. This can be achieved with the use of two RC

networks operating at the -3dB/45° transfer characteristic,

giving a full 90° phase differential between the LO ports of the

device. Each LO port of the device also requires an equal level

of drive from the Oscillator. (see Fig.5).

Pin Number

The SL6610 is a Direct Converson Receiver designed for

To achieve optimum performance it is necessary to

The Local Oscillator signal is applied to the device in phase

All voltages and current sources used for bias of the RF

Pin Name

TPX

MIX-DEC

LOY

GYRI

LOX

TPY

GTHADJ

TCADJ

BEC

BATTFL

TPLIMY

VCC2

DATAOP

TPLIMX

BRF2

BRF1

DIG GND

VBG

VBATT

VCC1

REGCNT

VREG

MIXB

GND

MIXA

IRFAMP

IAGCOUT

Pin Description

X channel pre-gyrator filter test-point. This can be used for input and output

Mixer bias de-couple pin

LO input channel Y

Gyrator current adjust pin

LO input channel X

VREF 1.0 V internal signal ground

Y channel pre-gyrator filter test point, input or output

Audio AGC gain and threshold adjust. RSSI signal indicator

Audio AGC time constant adjust

Battery economy control

Battery flag output

Y channel limiter (post gyrator filter) test point, output only

Supply connection

Data output pin

X channel limiter (post gyrator filter) test point, output only

Bit rate filter 2, input to data output stage

Bit rate filter 1, output from detector

Digital ground

Bandgap voltage output

Battery flag input voltage

Supply connection

1V regulator control external PNP drive

1V regulator output voltage

Mixer input B

Ground

Mixer input A

Current source for external LNA. Value of current output will decrease at high mixer

input signal levels due to RF AGC

Audio AGC output current

Gyrator Filters

may be adjusted with the use of an additional resistor between

pin 4 and GND. This allows flexibility of filter characterstics

and also allows for compensation for possible process

variations.

Audio AGC

which is controlled by the audio (baseband data) signal. It has

three parameters that may be controlled by the user. These

are the Attack (turn on) time, Decay (duration) time and

Threshold level (see Fig.6 and 7). See Application note for

details.

Regulator

suitable PNP transistor to achieve regulation.

transistor forms part of the regulator feedback loop the

transistor should exhibit the following characteristics:-

The on chip filters include an adjustable gyrator filter. This

The Audio AGC fundamentally consists of a current sink

The on chip regulator must be used in conjunction with a

> = 100 for V

> = 0.1V

As the

SL6610KG Zarlink Semiconductor Inc, SL6610KG Datasheet - Page 7

SL6610KG

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