Turn on crystal oscillator core
MAIN: PD_MODE=1, FS_PD=1, XOSC_PD=0, BIAS_PD=1
Wait 1.2 ms*
Power Down mode
*Time to wait depends
on the crystal frequency
and the load capacitance
Wait until lock detected from LOCK pin
or STATUS register
Turn on RX: MAIN: PD_MODE = 0
Wait until lock detected from LOCK pin
or STATUS register
Turn on TX: MAIN: PD_MODE = 0
Set PA_POWER
RX mode
TX mode
Turn off RX/TX:
MAIN: PD_MODE = 1, FS_PD=1,
XOSC_PD=1, BIAS_PD=1
PA_POWER=00h
Power Down mode
Turn on frequency synthesizer
MAIN: RXTX=0, F_REG=0, FS_PD=0
Turn on frequency synthesizer
MAIN: RXTX=1, F_REG=1, FS_PD=0
RX or TX?
RX
TX
W
a
k
eupCC
1020T
o
Rx
S
etupC
C1020R
x
S
etupC
C1020PD
W
a
k
eupCC
1020T
o
T
x
S
etupC
C1020T
x
S
etupC
C1020PD
Turn on bias generator. MAIN: BIAS_PD=0
Wait 150 us
Turn on crystal oscillator core
MAIN: PD_MODE=1, FS_PD=1, XOSC_PD=0, BIAS_PD=1
Wait 1.2 ms*
Power Down mode
Power Down mode
*Time to wait depends
on the crystal frequency
and the load capacitance
Wait until lock detected from LOCK pin
or STATUS register
Turn on RX: MAIN: PD_MODE = 0
Wait until lock detected from LOCK pin
or STATUS register
Turn on TX: MAIN: PD_MODE = 0
Set PA_POWER
Wait until lock detected from LOCK pin
or STATUS register
Turn on RX: MAIN: PD_MODE = 0
Wait until lock detected from LOCK pin
or STATUS register
Turn on TX: MAIN: PD_MODE = 0
Set PA_POWER
RX mode
TX mode
RX mode
RX mode
TX mode
TX mode
Turn off RX/TX:
MAIN: PD_MODE = 1, FS_PD=1,
XOSC_PD=1, BIAS_PD=1
PA_POWER=00h
Power Down mode
Power Down mode
Turn on frequency synthesizer
MAIN: RXTX=0, F_REG=0, FS_PD=0
Turn on frequency synthesizer
MAIN: RXTX=1, F_REG=1, FS_PD=0
Turn on frequency synthesizer
MAIN: RXTX=0, F_REG=0, FS_PD=0
Turn on frequency synthesizer
MAIN: RXTX=1, F_REG=1, FS_PD=0
RX or TX?
RX
TX
W
a
k
eupCC
1020T
o
Rx
S
etupC
C1020R
x
S
etupC
C1020PD
W
a
k
eupCC
1020T
o
T
x
S
etupC
C1020T
x
S
etupC
C1020PD
Turn on bias generator. MAIN: BIAS_PD=0
Wait 150 us
SWRS046H – NOVEMBER 2006 – REVISED MARCH 2015
Figure 5-28. Sequence for Activating RX or TX Mode
5.15 On-Off Keying (OOK)
The data modulator can also provide OOK (On-Off Keying) modulation. OOK is an ASK (Amplitude Shift
Keying) modulation using 100% modulation depth. OOK modulation is enabled in RX and in TX by setting
TXDEV_M[3:0] = 0000 in the DEVIATION register. An OOK eye diagram is shown in
.
The data demodulator can also perform OOK demodulation. The demodulation is done by comparing the
signal level with the “carrier sense” level (programmed as CS_LEVEL in the VGA4 register). The signal is
then decimated and filtered in the data filter. Data decision and bit synchronization are as for FSK
reception.
Copyright © 2006–2015, Texas Instruments Incorporated
Detailed Description
53
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