Si1000/1/2/3/4/5
between the WUT and the TLDC. The ldc[7:0] bits are located in “Register 19h. Low Duty Cycle Mode
Duration.” The time of the TLDC is determined by the formula below:
R
4 2
TLDC ldc [7 : 0 ]
ms
32 .768
Figure 23.24. Low Duty Cycle Mode
23.8.8. GPIO Configuration
Three general purpose IOs (GPIOs) are available. Numerous functions such as specific interrupts, TRSW
control, etc. can be routed to the GPIO pins as shown in the tables below. When in Shutdown mode all the
GPIO pads are pulled low.
Note: The ADC should not be selected as an input to the GPIO in standby or sleep modes and will cause excess cur-
rent consumption.
D7
D6
D5
D4
D3
D2
D1
D0
POR
Def.
Add R/W
Function/
Description
0B R/W
0C R/W
0D R/W
0E R/W
GPIO0
Configuration
gpio0drv[1] gpio0drv[0] pup0
gpio1drv[1] gpio1drv[0] pup1
gpio2drv[1] gpio2drv[0] pup2
gpio0[4] gpio0[3] gpio0[2] gpio0[1] gpio0[0] 00h
gpio1[4] gpio1[3] gpio1[2] gpio1[1] gpio1[0] 00h
gpio2[4] gpio2[3] gpio2[2] gpio2[1] gpio2[0] 00h
GPIO1
Configuration
GPIO2
Configuration
I/O Port
extitst[2] extitst[1] extitst[0]
itsdo
dio2
dio1
dio0
00h
Configuration
The GPIO settings for GPIO1 and GPIO2 are the same as for GPIO0 with the exception of the 00000
default setting. The default settings for each GPIO are listed below:
GPIO
GPIO0
GPIO1
GPIO2
00000—Default Setting
POR
POR Inverted
Output Clock
For a complete list of the available GPIOs see “AN440: EZRadioPRO Detailed Register Descriptions”.
The GPIO drive strength may be adjusted with the gpioXdrv[1:0] bits. Setting a higher value will increase
the drive strength and current capability of the GPIO by changing the driver size. Special care should be
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