IC RF TXRX SNGL-CHIP LP 20-QFN

CC2500-RTR1

Manufacturer Part NumberCC2500-RTR1
DescriptionIC RF TXRX SNGL-CHIP LP 20-QFN
ManufacturerTexas Instruments
CC2500-RTR1 datasheet
 


Specifications of CC2500-RTR1

Frequency2.4GHzData Rate - Maximum500kBaud
Modulation Or Protocol2-FSK, ASK, GFSK, MSK, OOKApplicationsISM, SRD
Power - Output-30dBm ~ 10dBmSensitivity-104dBm
Voltage - Supply1.8 V ~ 3.6 VCurrent - Receiving17mA
Current - Transmitting21.5mA @ 1 dBmData InterfacePCB, Surface Mount
Antenna ConnectorPCB, Surface MountOperating Temperature-40°C ~ 85°C
Package / Case20-VQFN Exposed Pad, 20-HVQFN, 20-SQFN, 20-DHVQFNOperating Temperature (min)-40C
Operating Temperature (max)85COperating Temperature ClassificationIndustrial
Product Depth (mm)4mmProduct Length (mm)4mm
Operating Supply Voltage (min)1.8VOperating Supply Voltage (typ)2.5/3.3V
Operating Supply Voltage (max)3.6VFor Use With296-24121 - DEV WRLSS TOOL FOR MSP430296-23125 - TARGET BRD WIRELESS EZ430-RF2500296-23031 - DEV WRLSS TOOL FOR MSP430/CC2500296-22903 - KIT EVAL MODULE FOR CC2500296-23077 - KIT DEV FOR CC2500/CC2550
Lead Free Status / RoHS StatusContains lead / RoHS non-compliantMemory Size-
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Table of Contents
APPLICATIONS ...........................................................................................................................................1
PRODUCT DESCRIPTION.........................................................................................................................1
KEY FEATURES ..........................................................................................................................................1
RF P
...........................................................................................................................................1
ERFORMANCE
A
F
..........................................................................................................................................1
NALOG
EATURES
D
F
..........................................................................................................................................1
IGITAL
EATURES
L
-P
F
...................................................................................................................................2
OW
OWER
EATURES
G
..........................................................................................................................................................2
ENERAL
ABBREVIATIONS........................................................................................................................................3
TABLE OF CONTENTS ..............................................................................................................................4
1
A
M
R
BSOLUTE
AXIMUM
ATINGS
2
O
C
......................................................................................................................6
PERATING
ONDITIONS
3
G
C
ENERAL
HARACTERISTICS
4
E
S
LECTRICAL
PECIFICATIONS
4.1
C
C
.....................................................................................................................7
URRENT
ONSUMPTION
4.2
RF R
S
...........................................................................................................................9
ECEIVE
ECTION
4.3
RF T
S
......................................................................................................................11
RANSMIT
ECTION
4.4
C
O
.......................................................................................................................12
RYSTAL
SCILLATOR
4.5
L
P
RC O
OW
OWER
SCILLATOR
4.6
F
S
REQUENCY
YNTHESIZER
4.7
A
T
S
NALOG
EMPERATURE
ENSOR
4.8
DC C
.......................................................................................................................14
HARACTERISTICS
4.9
P
-O
R
..............................................................................................................................14
OWER
N
ESET
5
P
C
..........................................................................................................................15
IN
ONFIGURATION
6
C
D
........................................................................................................................17
IRCUIT
ESCRIPTION
7
A
C
........................................................................................................................17
PPLICATION
IRCUIT
8
C
O
ONFIGURATION
VERVIEW
9
C
S
ONFIGURATION
OFTWARE
10
4-
S
C
WIRE
ERIAL
ONFIGURATION AND
10.1
C
S
B
............................................................................................................................22
HIP
TATUS
YTE
10.2
R
A
..............................................................................................................................23
EGISTER
CCESS
10.3
SPI R
...........................................................................................................................................23
EAD
10.4
C
S
..........................................................................................................................24
OMMAND
TROBES
10.5
FIFO A
.....................................................................................................................................24
CCESS
10.6
PATABLE A
.............................................................................................................................24
CCESS
11
M
I
ICROCONTROLLER
NTERFACE AND
11.1
C
I
ONFIGURATION
NTERFACE
11.2
G
C
S
ENERAL
ONTROL AND
TATUS
11.3
O
R
C
PTIONAL
ADIO
ONTROL
12
D
R
P
ATA
ATE
ROGRAMMING
13
R
C
F
ECEIVER
HANNEL
ILTER
14
D
, S
S
EMODULATOR
YMBOL
14.1
F
O
C
REQUENCY
FFSET
OMPENSATION
14.2
B
S
......................................................................................................................27
IT
YNCHRONIZATION
14.3
B
S
...................................................................................................................28
YTE
YNCHRONIZATION
15
P
H
H
ACKET
ANDLING
ARDWARE
15.1
D
W
..............................................................................................................................29
ATA
HITENING
15.2
P
F
................................................................................................................................29
ACKET
ORMAT
15.3
P
F
R
ACKET
ILTERING IN
ECEIVE
15.4
CRC C
.......................................................................................................................................31
HECK
15.5
P
H
T
ACKET
ANDLING IN
RANSMIT
15.6
P
H
R
ACKET
ANDLING IN
ECEIVE
15.7
P
H
F
ACKET
ANDLING IN
IRMWARE
16
M
F
.....................................................................................................................33
ODULATION
ORMATS
16.1
F
S
K
REQUENCY
HIFT
EYING
16.2
M
S
K
....................................................................................................................33
INIMUM
HIFT
EYING
...........................................................................................................6
...............................................................................................................6
...............................................................................................................7
............................................................................................................12
C
...................................................................................13
HARACTERISTICS
.......................................................................................................14
..............................................................................................................19
..............................................................................................................20
D
I
...................................................................21
ATA
NTERFACE
P
C
...............................................................25
IN
ONFIGURATION
..............................................................................................................25
P
..............................................................................................25
INS
F
...............................................................................................26
EATURE
...............................................................................................................26
B
..........................................................................................27
ANDWIDTH
D
D
YNCHRONIZER AND
ATA
ECISION
.................................................................................................27
S
.........................................................................................28
UPPORT
M
...............................................................................................31
ODE
M
............................................................................................32
ODE
M
..............................................................................................32
ODE
......................................................................................................33
................................................................................................................33
SWRS040C
.......................................................27
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