ATA8204P3-TKQY Atmel, ATA8204P3-TKQY Datasheet - Page 8

ATA8204P3-TKQY

Manufacturer Part Number

ATA8204P3-TKQY

Description

IC RCVR ASK/FSK UHF 433MHZ 20SSO

Manufacturer

Atmel

Datasheet

1.ATA8203P3-TKQY.pdf (46 pages)

Specifications of ATA8204P3-TKQY

Frequency

433MHz

Sensitivity

-115dBm

Data Rate - Maximum

10 kbps

Modulation Or Protocol

ASK, FSK

Applications

General Purpose

Current - Receiving

8.5mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Features

RSSI Equipped

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Package / Case

20-SOIC (0.200", 5.30mm Width)

Pin Count

Screening Level

Industrial

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Memory Size

Lead Free Status / Rohs Status

Compliant

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4.3

FSK/ASK Demodulator and Data Filter

ATA8203/ATA8204/ATA8205

The signal coming from the RSSI amplifier is converted into the raw data signal by the ASK/FSK

demodulator. The operating mode of the demodulator is set using the bit ASK/_FSK in the

OPMODE register. Logic L sets the demodulator to FSK, applying H to ASK mode.

In ASK mode an automatic threshold control circuit (ATC) is employed to set the detection refer-

ence voltage to a value where a good signal to noise ratio is achieved. This circuit also

implements the effective suppression of any kind of in-band noise signals or competing transmit-

ters. If the S/N (ratio to suppress in-band noise signals) exceeds about 10 dB the data signal can

be detected properly. However, better values are found for many modulation schemes of the

competing transmitter.

The FSK demodulator is intended to be used for an FSK deviation of 10 kHz

data signal in FSK mode can be detected if the S/N (ratio to suppress in-band noise signals)

exceeds about 2 dB. This value is valid for all modulation schemes of a disturber signal.

The output signal of the demodulator is filtered by the data filter before it is fed into the digital

signal processing circuit. The data filter improves the S/N ratio as its pass-band can be adopted

to the characteristics of the data signal. The data filter consists of a 1

order low-pass filter.

The high-pass filter cut-off frequency is defined by an external capacitor connected to pin

CDEM. The cut-off frequency of the high-pass filter is defined by the following formula:

In self-polling mode the data filter must settle very rapidly to achieve a low current consumption.

Therefore, CDEM cannot be increased to very high values if self-polling is used. On the other

hand, CDEM must be large enough to meet the data filter requirements according to the data

signal. Recommended values for CDEM are given in the electrical characteristics.

The cut-off frequency of the low-pass filter is defined by the selected baud-rate range

(BR_Range). The BR_Range is defined in the OPMODE register (refer to

ing the Receiver” on page

The ATA8203/ATA8204/ATA8205 is designed to operate with data coding where the DC level of

the data signal is 50%. This is valid for Manchester and Bi-phase coding. If other modulation

schemes are used, the DC level should always remain within the range of V

Each BR_Range is also defined by a minimum and a maximum edge-to-edge time (t

These limits are defined in the electrical characteristics. They should not be exceeded to main-

tain full sensitivity of the receiver.

fcu_DF

DC_max

= 66%. The sensitivity may be reduced by up to 2 dB in that condition.

------------------------------------------------------------ -

30 k

25). The BR_Range must be set in accordance to the baud-rate used.

CDEM

order high-pass and a 2

Section 11. “Configur-

DC_min

f 100 kHz. The

9121B–INDCO–04/09

= 33% and

ee_sig

ATA8204P3-TKQY Atmel, ATA8204P3-TKQY Datasheet - Page 8

ATA8204P3-TKQY

Specifications of ATA8204P3-TKQY

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