ATA5423_06 ATMEL [ATMEL Corporation], ATA5423_06 Datasheet - Page 24

ATA5423_06

Manufacturer Part Number

ATA5423_06

Description

UHF ASK/FSK Transceiver

Manufacturer

ATMEL [ATMEL Corporation]

Datasheet

1.ATA5423_06.pdf (100 pages)

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3.15

3.16

Matching Network in TX Mode

Matching Network in RX Mode

ATA5423/25/28/29

In TX mode the 20 mm long and 0.4 mm wide transmission line which is much shorter than λ/4 is

approximately switched in parallel to the capacitor C

antenna with pin RF_OUT, L

as discussed later). The transmission line can be approximated with a 16 nH inductor in series

with a 1.5

with the series connection of 1.6 nH and 5Ω in this mode. To have a parallel resonant high

impedance circuit with little RF power going into it looking from the loop antenna into the trans-

mission line a capacitor of about 7.6 pF to GND is needed at the beginning of the transmission

line (this capacitor is later absorbed into C

tion). To keep the 50Ω impedance in RX mode at the end of this transmission line, C

be about 7.6 pF. This reduces the TX power by about 0.5 dB at 433.92 MHz compared to the

case the where the LNA path is completely disconnected.

In RX mode the RF_OUT pin has a high impedance of about 7 kΩ in parallel with 1.0 pF at

433.92 MHz as can be seen in

120 nH and Q

impedance in TX mode for the power amplifier at RF_OUT is 890 Ω the loss associated with the

inductor L

pared to the optimum matched loop antenna without L

this mode at 433.92 MHz, approximately an inductor of 1.6 nH in series with the parallel connec-

tion of 2.5 pF and 2.0 kΩ. Since the impedance level at pin RX_TX1 in RX mode is about 50Ω

this only negligibly dampens the received signal (by about 0.1 dB). When matching the LNA to

the loop antenna, the transmission line and the 7.6 pF part of C

when choosing the values of C

the transmission line with the 7.6 pF capacitor connected is 50Ω. Since the loop antenna in RX

mode is loaded by the LNA input impedance, the loaded Q of the loop antenna is lowered by

about a factor of 2 in RX mode; hence the antenna bandwidth is higher than in TX mode.

Table 3-11.

Note that if matching to 50Ω, like in

Q > 70 should be used for L

dominant. The RX and TX losses will be in the range of 1.0 dB there.

and C

433.92 MHz

Ω

Frequency

868.3 MHz

315 MHz

345 MHz

915 MHz

has an impedance of about 50Ω locking from the transmission line into the loop

and the RF_OUT pin can be estimated to be 10 × log(1 + 890/3700) = 0.95 dB com-

resistor, the closed switch can be approximated according to

Impedance RF_OUT Pin in RX Mode

= 25, gives about 3.7 kΩ loss impedance at RF_OUT. Since the optimum load

, C

to minimize its contribution to RX losses that will otherwise be

Table

and L

, C

Figure 2.2 on page

3-11. This, together with the losses of the inductor L

and C

Z(RF_OUT)RX

2.8Ω – j 141Ω

2.6Ω – j 135Ω

so that the impedance seen from the loop antenna into

36Ω – j 502Ω

33Ω – j 480Ω

19Ω – j 366Ω

which is then higher, as needed for 50Ω transforma-

connected (using a C

to GND. The antenna connection between

and RF_OUT. The switch represents, in

8, a high Q wire-wound inductor with a

have to be taken into account

without the added 7.6 pF

Table 3-10 on page 23

7 kΩ//1.0 pF

7 kΩ//1.3 pF

//C

4841C–WIRE–05/06

also has to

with

ATA5423_06 ATMEL [ATMEL Corporation], ATA5423_06 Datasheet - Page 24

ATA5423_06

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