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CC2500_06 Datasheet, PDF (16/84 Pages) Texas Instruments – Single Chip Low Cost Low Power RF Transceiver
CC2500
easily found using the SmartRF® Studio
software. Suggested values are listed in Table
15. The balun and LC filter component values
and their placement are important to keep the
performance optimized. It is highly
recommended to follow the CC2500EM
reference design.
Crystal
The crystal oscillator uses an external crystal
with two loading capacitors (C81 and C101).
See Section 26 on page 45 for details.
Power supply decoupling
The power supply must be properly decoupled
close to the supply pins. Note that decoupling
capacitors are not shown in the application
circuit. The placement and the size of the
decoupling capacitors are very important to
achieve the optimum performance. The
CC2500EM reference design should be
followed closely.
Component
C51
C81/C101
C121/C131
C122/C132
C123/C124
L121/L131
L122
R171
XTAL
Description
Decoupling capacitor for on-chip voltage regulator to digital part
Crystal loading capacitors, see Section 26 on page 45 for details
RF balun DC blocking capacitors
RF balun/matching capacitors
RF LC filter/matching capacitors
RF balun/matching inductors (inexpensive multi-layer type)
RF LC filter inductor (inexpensive multi-layer type)
Resistor for internal bias current reference
26-27 MHz crystal, see Section 26 on page 45 for details
Table 14: Overview of external components (excluding supply decoupling capacitors)
1.8V-3.6V power supply
SI
R171
SCLK
SO
(GDO1)
GDO2
(optional)
C51
GDO0
(optional)
CSn
1 SCLK
2 SO (GDO1)
3 GDO2 CC2500
4 DVDD
DIE ATTACH PAD:
5 DCOUPL
AVDD 15
AVDD 14
RF_N 13
RF_P 12
AVDD 11
XTAL
C81
C101
L131
C131
C132
C121
L121
C122
Antenna
(50 Ohm)
L122
C123 C124
Alternative:
Folded dipole PCB
antenna (no external
components needed)
Figure 3: Typical application and evaluation circuit (excluding supply decoupling capacitors)
PRELIMINARY Data Sheet (Rev.1.2) SWRS040A
Page 16 of 83