ATA3742P3-TGQY Atmel, ATA3742P3-TGQY Datasheet - Page 5

ATA3742P3-TGQY

Manufacturer Part Number

ATA3742P3-TGQY

Description

IC UHF ASK/FSK RECEIVER 20SOIC

Manufacturer

Atmel

Datasheet

1.ATA3742P3-TGQY.pdf (34 pages)

Specifications of ATA3742P3-TGQY

Frequency

310MHz ~ 440MHz

Sensitivity

-108dBm

Data Rate - Maximum

10 kBaud

Modulation Or Protocol

ASK, FSK

Applications

RKE, TPM, Security Systems

Current - Receiving

7mA

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 Frequency (max)

450000kHz

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

Other names

ATA3742P3-TGQYTR

Current page: 5 of 34
Download datasheet (580Kb)

4900B–RKE–11/07

To determine f

frequency is f

is tuned by the crystal frequency f

The relation is designed to achieve the nominal IF frequency of f

tions. For applications where f

ferent conditions.

The RF input either from an antenna or from a generator must be transformed to the RF input

pin LNA_IN. The input impedance of that pin is provided in the electrical parameters. The para-

sitic board inductances and capacitances also influence the input matching. The RF receiver

ATA3742 exhibits its highest sensitivity at the best signal-to-noise ratio in the LNA. Hence, noise

matching is the best choice for designing the transformation network.

A good practice when designing the network is to start with power matching. From that starting

point, the values of the components can be varied to some extent to achieve the best sensitivity.

If a SAW is implemented into the input network, a mirror frequency suppression of P

can be achieved. There are SAWs available that exhibit a notch at f = 2 MHz. These SAWs

work best for an intermediate frequency of IF = 1 MHz. The selectivity of the receiver is also

improved by using a SAW. In typical automotive applications, a SAW is used.

Figure 3-2 on page 6

SAW. The input matching networks shown in

for the parameters given in the

Table 3-1.

MODE

Conditions

300 MHz < f

365 MHz < f

is then dependent on the logical level at pin MODE and on f

that depends on the logic level at pin MODE. This is described by the following formulas:

= 433.92 MHz, MODE must be set to “1”. For other RF frequencies, f

= 433.92 MHz using a SAW.

= 315 MHz, MODE = 0

= 433.92 MHz, MODE = 1

0 (USA) f

1 (Europe) f

< 365 MHz, MODE = 0

< 450 MHz, MODE = 1

Calculation of LO and IF Frequency

= 1 MHz. To achieve a good accuracy of the filter's corner frequencies, the filter

, the construction of the IF filter must be considered at this point. The nominal IF

--------- -

314

shows a typical input matching network for f

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

432.92

“Electrical Characteristics” on page

Figure 3-3 on page 6

XTO

= 315 MHz, MODE must be set to “0”. In the case of

. This means that there is a fixed relation between f

Local Oscillator Frequency

= 314 MHz

= 432.92 MHz

Figure 3-3 on page 6

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

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

--------- -

314

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

432.92

illustrates input matching to 50 without a

Table 3-1

26.

are the reference networks

= 1 MHz for most applica-

Intermediate Frequency

= 1 MHz

is not equal to 1 MHz.

--------- -

314

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

432.92

summarizes the dif-

= 315 MHz and

ATA3742

Ref

= 40 dB

and

ATA3742P3-TGQY Atmel, ATA3742P3-TGQY Datasheet - Page 5

ATA3742P3-TGQY

Specifications of ATA3742P3-TGQY

Related parts for ATA3742P3-TGQY