ATA5428-PLQW Atmel, ATA5428-PLQW Datasheet - Page 22

ATA5428-PLQW

Manufacturer Part Number

ATA5428-PLQW

Description

IC TXRX WIDEBND 433/868MHZ 48QFN

Manufacturer

Atmel

Datasheets

1.ATAB5428-8-WB.pdf (100 pages)

2.ATA5429-PLQW.pdf (2 pages)

Specifications of ATA5428-PLQW

Frequency

433MHz, 868MHz

Data Rate - Maximum

20kbps

Modulation Or Protocol

ASK, FSK

Applications

Alarm and Security Systems, RKE

Power - Output

10dBm

Sensitivity

-112.5dBm

Voltage - Supply

2.4 V ~ 3.6 V or 4.4 V ~ 6.6 V

Current - Receiving

10.5mA

Current - Transmitting

10mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Operating Temperature

-40°C ~ 85°C

Package / Case

48-VQFN Exposed Pad, 48-HVQFN, 48-SQFN, 48-DHVQFN

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Product Depth (mm)

7mm

Product Height (mm)

0.9mm

Product Length (mm)

7mm

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Memory Size

Lead Free Status / Rohs Status

Compliant

Other names

ATA5428-PLQHCT
ATA5428-PLQHCT
ATA5428-PLQWCT

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Quantity

Price

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Part Number:

ATA5428-PLQW

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Quantity:

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Table 3-7.

3.13

Frequency (MHz) TX Current (mA) Output Power (dBm) R1 (k )

433.92

868.3

315

345

915

Output Power and TX Supply Current versus Supply Voltage and Temperature

ATA5423/ATA5425/ATA5428/ATA5429

Measured Output Power and Current Consumption with VS1 = VS2 = 3V, T

10.5

16.7

10.4

16.9

11.2

17.8

11.5

16.3

11.8

20.3

8.5

8.8

8.6

9.3

9.6

Table 3-8 on page 22

VS = VS1 = VS2 in the 433.92 MHz and 6.2 dBm case versus temperature and supply voltage

measured according to

opposed to the receiver sensitivity, the supply voltage has here the major impact on output

power variations because of the large signal behavior of a power amplifier. Thus, a two battery

system with voltage regulator or a 5V system shows much less variation than a 2.4V to 3.6V one

battery system because the supply voltage is then well within 3.0V and 3.6V.

The reason is that the amplitude at the output RF_OUT with optimum load resistance is

AVCC – 0.4V and the power is proportional to (AVCC – 0.4V)

changed. This means that the theoretical output power reduction if reducing the supply voltage

from 3.0V to 2.4V is 10 log ((3 V – 0.4 V)

ciple behavior in the measurement. This is not the same case for higher voltages, since here

increasing the supply voltage from 3V to 3.6V should theoretical increase the power by 1.8 dB;

but a gain of only 0.8 dB in the measurement shows that the amplitude does not increase with

the supply voltage because the load impedance is optimized for 3V and the output amplitude

stays more constant.

Table 3-8.

amb

VS =

= +25°C

= +85°C

–

40°C

Measured Output Power and Supply Current at 433.92 MHz, PWR_H = GND

10.5

10.7

10.2

-0.3

0.4

5.7

1.6

5.9

0.1

6.2

0.1

4.9

5.4

9.5

shows the measurement of the output power for a typical device with

Figure 3-10 on page 21

10.19 mA

10.62 mA

3.8 dBm

4.6 dBm

11.4 mA

3.9 dBm

2.4 V

VPWR_H

/(2.4 V – 0.4 V)

AVCC

GND

with components according to

Lopt

2500

2400

2300

1170

1100

920

350

900

320

890

300

471

245

465

230

10.19 mA

11.19 mA

12.02 mA

5.5 dBm

6.2 dBm

5.5 dBm

3.0 V

( )

) = 2.2 dB.

L1 (nH)

amb

if the load impedance is not

= 25°C

Table 3-8

C1 (pF) C3 (pF)

10.78 mA

11.79 mA

12.73 mA

shows that prin-

6.2 dBm

7.1 dBm

6.6 dBm

0.75

4841D–WIRE–10/07

3.6 V

1.5

2.2

3.9

1.2

1.8

3.9

1.5

2.7

1.0

1.5

0.7

1.5

Table

3-7. As

3.3

ATA5428-PLQW Atmel, ATA5428-PLQW Datasheet - Page 22

ATA5428-PLQW

Specifications of ATA5428-PLQW

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