Rainbow Electronics AT86RF231 User Manual

13

8111A–AVR–05/08

AT86RF231

the reference frequency, large parasitic capacitances should be avoided. Crystal lines should be
routed as short as possible and not in proximity of digital I/O signals. This is especially required
for the High Data Rate Modes, refer to

Section 11.3 “High Data Rate Modes” on page 137

.

Crosstalk from digital signals on the crystal pins or the RF pins can degrade the system perfor-
mance. Therefore, a low-pass filter (C3, R1) is placed close to the CLKM output pin to reduce
the emission of CLKM signal harmonics. This is not needed if the CLKM pin is not used as a
microcontroller clock source. In that case, the output should be turned off during device
initialization.

The ground plane of the application board should be separated into four independent fragments,
the analog, the digital, the antenna and the XTAL ground plane. The exposed paddle shall act as
the reference point of the individual grounds.

Table 5-1.

Example Bill of Materials (BoM) for Basic Application Schematic

Designator

Description

Value

Manufacture

Part Number

Comment

B1

SMD balun

2.4 GHz

Wuerth

748421245

CB1
CB3

LDO VREG
bypass capacitor

1 µF

AVX
Murata

0603YD105KAT2A
GRM188R61C105KA12D

X5R
(0603)

10%

16V

CB2
CB4

Power Supply decoupling

CX1, CX2

Crystal load capacitor

12 pF

AVX
Murata

06035A120JA
GRP1886C1H120JA01

COG
(0603)

5%

50V

C1, C2

RF coupling capacitor

22 pF

Epcos
Epcos
AVX

B37930
B37920
06035A220JAT2A

COG

5%

(0402 or 0603)

C3

CLKM low-pass
filter capacitor

2.2 pF

AVX
Murata

06035A229DA
GRP1886C1H2R0DA01

COG
(0603)

±0.5 pF

Designed for f

CLKM

=1 MHz

C4

RF matching

0.47 pF

Johnstech

R1

CLKM low-pass
filter resistor

680

Ω

Designed for f

CLKM

=1 MHz

XTAL

Crystal

CX-4025 16 MHz
SX-4025 16 MHz

ACAL Taitjen
Siward

XWBBPL-F-1
A207-011