ATA5824-PLQW 80 Atmel, ATA5824-PLQW 80 Datasheet - Page 23

ATA5824-PLQW 80

Manufacturer Part Number

ATA5824-PLQW 80

Description

Manufacturer

Atmel

Datasheet

1.ATA5824-PLQW_80.pdf (98 pages)

Specifications of ATA5824-PLQW 80

Operating Temperature (min)

-40C

Operating Temperature (max)

105C

Operating Temperature Classification

Industrial

Product Depth (mm)

7mm

Product Height (mm)

0.9mm

Product Length (mm)

7mm

Operating Supply Voltage (typ)

Lead Free Status / Rohs Status

Compliant

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7.14

4829D–RKE–06/06

Output Power and TX Supply Current versus Supply Voltage and Temperature

Table 7-8

the 433.92 MHz and 6.2 dBm case versus temperature and supply voltage measured according

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 5V system using the internal

voltage regulator shows much less variation than a 2.15V to 3.6V battery system because the

AVCC supply voltage is 3.25V ±0.25V for a 5V system.

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

AVCC

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

from 3.0V to 2.15V is 10 log ((3V

ple behavior in the measurements. 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 only 0.9 dB in the measurements 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 because of the current source nature of the output.

Table 7-8.

Table 7-9

3.0V/25°C. As can be seen, a temperature change to

power by less than 1 dB due to the band-gap regulated output current. Measurements of all the

cases in

relative behavior as shown in

Table 7-9.

Figure 7-12 on page 22

amb

–

amb

= V

0.4V and the power is proportional to (AVCC

Table 7-7 on page 22

= +105°C

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

= –40°C

= +25°C

= –40°C

= +25°C

shows the relative changes of the output power of a typical device compared to

= V

Measurements of Typical Output Power Relative to 3 V/25°C

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

with components according to

Table

overtemperature and supply voltage have shown about the same

9.25 mA

3.2 dBm

10.2 mA

3.4 dBm

10.9 mA

3.0 dBm

–3.0 dB

–2.8 dB

–3.2 dB

–

2.15V

0.4V)

7-9.

/(2.15V

–

0.4V)

–

10.19 mA

11.19 mA

12.02 mA

40°C as well as to +105°C reduces the

5.5 dBm

6.2 dBm

5.4 dBm

–0.7 dB

–0.8 dB

–

) = 3.4 dB.

3.0V

Table 7-7 on page

0 dB

0.4V)

ATA5823/ATA5824

if the load impedance is not

Table 7-8

22. As opposed to

shows that princi-

10.78 mA

11.79 mA

12.73 mA

6.2 dBm

7.1 dBm

6.3 dBm

+0.9 dB

+0.1 dB

3.6V

0 dB

= V

ATA5824-PLQW 80 Atmel, ATA5824-PLQW 80 Datasheet - Page 23

ATA5824-PLQW 80

Specifications of ATA5824-PLQW 80

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