Chengdu Ebyte Electronic Technology Co.,Ltd. E31-433T17S User Manual
Copyright ©2012–2019
,
Chengdu Ebyte Electronic Technology Co.,Ltd.
10
6 Operating mode
There are four operating modes, which are set by M1 and M0, the details are as follows:
Mode
(
0-3
)
M0
M1
Description
Remark
0 Normal mode
0
0
UART and wireless channel are open, transparent
transmission is on
The receiver must be Mode
0
、
1
1 WOR mode
1
0
UART and wireless channel are open
;
The only difference with Mode 0: Before the data
packet transmitting, it will add wake-up code
automatically, in which the modules under mode 2 can
be wake up.
The receiver can be mode0, 1,
or 2
2 Power saving mode
0
1
UART receiving is closed, wireless channel is under
WOR mode, after the wireless data is received, the
wireless channel will be open and send the data out.
The transmitter must be mode
1. In this mode, the
transmission is unavailable.
3 sleep mode
1
1
The module enters sleep mode, but the parameters can
be configured.
See more details in working
parameters.
6.1 Mode switching
Users can combine M1 and M0 with high and low levels to determine the operating mode. Two GPIOs of the MCU
can be used to control mode switching; After changing M1 and M0: If the module is idle, after 1ms, it can start
working according to the new mode; If the serial port data of the module has not been transmitted through the wireles s,
the new working mode can be switched after the transmission is completed; If the module receives the wireless data
and transmits the data through the serial port, it needs to finish transmissio n before switching the new working mode;
Therefore, mode switching can only be valid when AUX output is 1, otherwise it will delay switching.
For example, in mode 0 or mode 1, users continuously inputs a large amount of data and simultaneously performs
mode switching. At this time, the switching mode operation is invalid; the module will process all the user data befo re
performing the new mode detection; Therefore, the general recommendation is to detect the output state of the AUX
pin and switch after 2ms when the output is high.
When the module is switched from other modes to sleep mode, if the data has not been processed yet; The module
will process these data (including receiving and sending) before entering sleep mode. This feature can be used for fa st
sleep, which saves power; for example, the transmitter module works in mode 0, the user transmits the serial port data
"12345", and then does not have to wait for the AUX pin to be idle (high level), and can directly switch to sleep mod e.
And the user's main MCU immediately sleeps, the module will automatically transmit the user data through the
wireless, and automatically enters sleep within 1ms; This saves MCU's working time and reduces power consumption.
Similarly, any mode switching can use this feature. After the module processes the current mode event, it will
automatically enter the new mode within 1ms; thus eliminating the need for the user to query AUX and achieve the
purpose of fast switching; For example, switching from the transmit mode to the receive mode; the user MCU can
also enter sleep before the mode switch, and use the external interrupt function to acquire the AUX change, thereby
performing mode switching.
This operation mode is very flexible and efficient, and is designed according to the user's MCU's operation
convenience, and can reduce the workload of the entire system as much as possible, improve system efficiency, and
reduce power consumption.
6.2 Normal mode
(
Mode 0
)
Type
When M0 = 0
,
M1 = 0
,
the module works on Mode 0
