ATA5760N3-TGQY Atmel, ATA5760N3-TGQY Datasheet - Page 9

ATA5760N3-TGQY

Manufacturer Part Number

ATA5760N3-TGQY

Description

IC RCVR ASK/FSK 868MHZ 20SOIC

Manufacturer

Atmel

Datasheet

1.ATA5760N-TGSY.pdf (41 pages)

Specifications of ATA5760N3-TGQY

Frequency

868MHz

Sensitivity

-110dBm

Data Rate - Maximum

10 kBaud

Modulation Or Protocol

ASK, FSK

Applications

Telemetering and Security Systems

Current - Receiving

7.8mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 105°C

Package / Case

20-SOIC (0.300", 7.50mm Width)

Operating Temperature (min)

-40C

Operating Temperature (max)

105C

Operating Temperature Classification

Industrial

Operating Supply Voltage (min)

4.5V

Operating Supply Voltage (typ)

Operating Supply Voltage (max)

5.5V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Memory Size

Lead Free Status / Rohs Status

Compliant

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6. Polling Circuit and Control Logic

7. Basic Clock Cycle of the Digital Circuitry

4896D–RKE–08/08

The receiver is designed to consume less than 1 mA while being sensitive to signals from a cor-

responding transmitter. This is achieved via the polling circuit. This circuit enables the signal

path periodically for a short time. During this time the bit-check logic verifies the presence of a

valid transmitter signal. Only if a valid signal is detected, the receiver remains active and trans-

fers the data to the connected microcontroller. If there is no valid signal present, the receiver is

in sleep mode most of the time resulting in low current consumption. This condition is called poll-

ing mode. A connected microcontroller is disabled during that time.

All relevant parameters of the polling logic can be configured by the connected microcontroller.

This flexibility enables the user to meet the specifications in terms of current consumption, sys-

tem response time, data rate etc.

Regarding the number of connection wires to the microcontroller, the receiver is very flexible. It

can be either operated by a single bi-directional line to save ports to the connected microcon-

troller or it can be operated by up to five uni-directional ports.

The complete timing of the digital circuitry and the analog filtering is derived from one clock. This

clock cycle T

cuit. According to section

is defined by the RF input signal (f

oscillator (f

and T

Most applications are dominated by two transmission frequencies: f

used in USA, f

parameters on this electrical characteristics display three conditions for each parameter.

The clock cycle of some function blocks depends on the selected baud-rate range (BR_Range)

which is defined in the OPMODE register. This clock cycle T

mulas for further reference:

BR_Range =

Clk

• Timing of the polling circuit including bit check

• Timing of the analog and digital signal processing

• Timing of the register programming

• Frequency of the reset marker

• IF filter center frequency (f

• Application USA (f

• Application Europe

• Other applications The electrical characteristic is given as a function of T

controls the following application-relevant parameters:

XTO

Clk

= 6.77617 MHz, T

= 6.77587 MHz, T

= 1.961 µs for f

Clk

). The basic clock cycle is T

Transmit

is derived from the crystal oscillator (XTO) in combination with a divide by 14 cir-

XTO

= 868.3 MHz in Europe. In order to ease the usage of all T

= 7.14063 MHz, T

“RF Front End” on page

= 915 MHz.

Clk

= 2.066 µs) for B

IF0

BR_Range0:

BR_Range1:

BR_Range2:

BR_Range3:

)

RFin

) which also defines the operating frequency of the local

Clk

= 14/f

= 1.961 µs)

= 600 kHz

= 300 kHz

XTO

4, the frequency of the crystal oscillator (f

giving T

XClk

ATA5760/ATA5761

= 8

= 4

= 2

= 1

XClk

Clk

= 2.066 µs for f

is defined by the following for-

Clk

Transmit

= 915 MHz is mainly

Clk

= 868.3 MHz

-dependent

XTO

)

ATA5760N3-TGQY Atmel, ATA5760N3-TGQY Datasheet - Page 9

ATA5760N3-TGQY

Specifications of ATA5760N3-TGQY

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