Application with the sa2400a, Sa2400a, Sa2411 – Philips SA2411 User Manual

Philips Semiconductors

Product data

SA2411

+20 dBm single chip linear amplifier for WLAN

2003 Feb 07

14

12. APPLICATION WITH THE SA2400A

Next diagram is the application of the SA2400A with the SA2411.

The interface is simple. Two equal microstrip lines connect the SA2400A with the SA2411. The length of this connection should be kept to a
minimum.

The supply for the open collectors of the SA2400A is provided via pin 2 of the SA2411.

C2 is for supply voltage decoupling.

SR02487

A_GND

TX_HI

A_V

TX_OUT_LO

SA2400A

DD

A_GND

TX_OUT_HI_P

TX_OUT_HI_M

A_GND

SEN

SDA

T

A

SCLK

TX/RX

TX_IN_I_P/
TX_DATA_I

TX_IN_I_M/
TX_DATA_Q

TX_IN_Q_P

TX_IN_Q_M

AGCRESET

AGCSET

IDCOUT

A_GND

1

2

3

4

48

47

46

45

44

43

42

41

40

39

38

37

36

35

34

33

VDD_MAIN

VDD_DRIVER

IN+

IN–

GND

DETECT

OR

GND

PWRUP

GND

RF_GND

ANT

GND

MODE

GND

GND

VDD_BIAS

SA2411

16

15

14

13

12

11

10

9

1

2

3

4

5

6

7

8

V

DD

PWRUP

I

detector

C2

3-WIRE BUS

RF connection

Other connection

Figure 25.

NOTE:

A suggested starting point for designing the coupled microstrip lines:
Length = 1/18

λ

. Width = 12 mils, Separation = 5 mils with the Dielectric constant = 4.6.

This should result in Z

even

= 150

Ω

, Z

o

= 75

Ω

, and Z

odd

= 30

Ω

.

There should be no ground plane under the microstrip lines.