Products
WUZHI/ZK-TD4 MOS switch trigger cycle timing delay module 5-30V multiple triggers (without terminals) -81496
product detail
Usage:
1. To achieve fast turn-on and off the circuit, an unlimited number of switching;
2. Conducting and cutting process does not produce noise, no spark, no electromagnetic interference;
3. Compared with electromagnetic MOS switch products, longer life;
4.
The dual-MOS parallel drive, lower resistance, more current, strong
power; at room temperature, operating current of up to 15A, power up to
400W, to meet the most use of the equipment;
The dual-MOS parallel drive, lower resistance, more current, strong
power; at room temperature, operating current of up to 15A, power up to
400W, to meet the most use of the equipment;
5. A method for controlling the motor, lights, LED, DC motors, micro-pumps, solenoid valves, etc., very convenient.
Feature:
1. Wide voltage input (5 -30V), most devices can be used, very convenient;
2. The interface is clear and simple, powerful, easy to understand, meet almost all your needs;
3. The emergency stop function (""STOP"" key); With reverse polarity protection, reverse polarity will not burn the product.
4.
Increase the sleep mode, if this mode is enabled, without any operation
within 3 minutes, then automatically turn off the monitor, any key
wake-up;
Increase the sleep mode, if this mode is enabled, without any operation
within 3 minutes, then automatically turn off the monitor, any key
wake-up;
5. You can set a different OP, CL, LOP、CLL、CLH、SP parameters, which are independent of each other, and are automatically saved;
6. New addition of Tik Tok automatic slide screen function.
7. New serial communication function, easy to read and set parameters.
8. After the module is powered down, all parameter settings are not lost.
Operating mode:
Mode without triggering
P00: After the module is powered on, the MOS switch is powered off for CL time, and the MOS switch is started
P01: After the module is powered on, the MOS switch is on OP time and the MOS switch is disconnected
P02:
After power on, there is no need to trigger the signal, the OP time of
the MOS switch on, the CL time of the MOS switch off, and the above
actions can be cycled; the number of cycles (LOP) can be set; after the
cycle, the MOS switch is kept disconnected
After power on, there is no need to trigger the signal, the OP time of
the MOS switch on, the CL time of the MOS switch off, and the above
actions can be cycled; the number of cycles (LOP) can be set; after the
cycle, the MOS switch is kept disconnected
P03:
After power on, there is no need to trigger the signal, the CL time of
the MOS switch is disconnected, the OP time of the MOS switch is on, and
the above actions are cycled; the number of cycles (LOP) can be set;
after the cycle, the MOS switch is kept on
After power on, there is no need to trigger the signal, the CL time of
the MOS switch is disconnected, the OP time of the MOS switch is on, and
the above actions are cycled; the number of cycles (LOP) can be set;
after the cycle, the MOS switch is kept on
Patterns that need to be triggered
P04:
After the signal is triggered, the MOS switch turns on the OP time and
then turns off; within the OP time, the signal is triggered again and is
invalid
After the signal is triggered, the MOS switch turns on the OP time and
then turns off; within the OP time, the signal is triggered again and is
invalid
P05:
After the signal is triggered, the MOS switch conducts OP time and then
disconnects. Within the OP time, the signal is triggered again to
restart the timing
After the signal is triggered, the MOS switch conducts OP time and then
disconnects. Within the OP time, the signal is triggered again to
restart the timing
P06:
After the signal is triggered, the MOS switch conducts OP time and then
disconnects. Within OP time, the signal triggers the reset again, the
MOS switch disconnects, and the timing stops
After the signal is triggered, the MOS switch conducts OP time and then
disconnects. Within OP time, the signal triggers the reset again, the
MOS switch disconnects, and the timing stops
P07: After the signal is triggered, the MOS switch opens CL time, and then the MOS switch is on
P08:
After the signal is triggered, the CL time of the MOS switch is
disconnected, and the OP time of the MOS switch is on. After the timing
is completed, the MOS switch is disconnected; in the cycle, the signal
trigger is invalid
After the signal is triggered, the CL time of the MOS switch is
disconnected, and the OP time of the MOS switch is on. After the timing
is completed, the MOS switch is disconnected; in the cycle, the signal
trigger is invalid
P09:
After the signal is triggered, the CL time of the MOS switch is
disconnected, and the OP time of the MOS switch is on. After the timing
is completed, the MOS switch is disconnected; in the cycle, the signal
is triggered again, and the timing is repeated
After the signal is triggered, the CL time of the MOS switch is
disconnected, and the OP time of the MOS switch is on. After the timing
is completed, the MOS switch is disconnected; in the cycle, the signal
is triggered again, and the timing is repeated
P10:
After the signal is triggered, the CL time of the MOS switch is
disconnected, and the OP time of the MOS switch is on, and then the
above actions are cycled. In the cycle, the signal is given again to
restore the initial state and stop timing; the number of cycles (LOP)
can be set; at the end of the cycle, the MOS switch is kept on
After the signal is triggered, the CL time of the MOS switch is
disconnected, and the OP time of the MOS switch is on, and then the
above actions are cycled. In the cycle, the signal is given again to
restore the initial state and stop timing; the number of cycles (LOP)
can be set; at the end of the cycle, the MOS switch is kept on
P11:
After the signal is triggered, the OP time of the MOS switch is on, the
CL time of the MOS switch is disconnected, and then the above actions
are cycled. In the cycle, the signal is given again to restore the
initial state and stop timing; the number of cycles (LOP) can be set; at
the end of the cycle, the MOS switch is kept disconnected
After the signal is triggered, the OP time of the MOS switch is on, the
CL time of the MOS switch is disconnected, and then the above actions
are cycled. In the cycle, the signal is given again to restore the
initial state and stop timing; the number of cycles (LOP) can be set; at
the end of the cycle, the MOS switch is kept disconnected
P12:
After the signal is triggered, MOS switch conducts OP time, MOS switch
disconnects CL time, and then circulates the above action. The signal is
given again in the loop, which is invalid. Looping times (LOP) can be
set; Loop ends and the holding MOS switch is disconnected
After the signal is triggered, MOS switch conducts OP time, MOS switch
disconnects CL time, and then circulates the above action. The signal is
given again in the loop, which is invalid. Looping times (LOP) can be
set; Loop ends and the holding MOS switch is disconnected
P13:
Signal holding function: if there is a trigger signal, the timing is
cleared to zero, and the MOS switch remains on; when the signal
disappears, the MOS switch is disconnected after timing OP; during
timing, if there is another signal, the timing is cleared
Signal holding function: if there is a trigger signal, the timing is
cleared to zero, and the MOS switch remains on; when the signal
disappears, the MOS switch is disconnected after timing OP; during
timing, if there is another signal, the timing is cleared
P14:
Signal holding function: if there is a trigger signal, the timing will
be cleared and the MOS switch will remain disconnected; when the signal
disappears, the MOS switch will be turned on after timing CL; during the
timing period, if there is another signal, the timing will be cleared
Signal holding function: if there is a trigger signal, the timing will
be cleared and the MOS switch will remain disconnected; when the signal
disappears, the MOS switch will be turned on after timing CL; during the
timing period, if there is another signal, the timing will be cleared
Tik Tok auto slide mode
P15:
After the signal is triggered, the MOS switch is disconnected for L -h
time (for example, L= 10, H = 15, then the MOS switch disconnection time
is a random number between 10-15 seconds, L and H are set at 0.0-99.9
seconds, and H is greater than or equal to L). After the MOS switch
disconnection time is over, the motor can be driven to rotate at the
speed sp (frequency 600 Hz, gear 0-16 corresponding to duty cycle 20,
25, 30,... 100 respectively)
After the signal is triggered, the MOS switch is disconnected for L -h
time (for example, L= 10, H = 15, then the MOS switch disconnection time
is a random number between 10-15 seconds, L and H are set at 0.0-99.9
seconds, and H is greater than or equal to L). After the MOS switch
disconnection time is over, the motor can be driven to rotate at the
speed sp (frequency 600 Hz, gear 0-16 corresponding to duty cycle 20,
25, 30,... 100 respectively)
Parameter:
Operating voltage: DC 5V -30V
Continuous current 15A Max 30A
Output power: 400W
Quiescent Current: 20mA
Operating Current: 50mA
Life: any switching times
Working temperature: -40-85℃
Size:60*34*12mm
With optocoupler isolation, enhanced anti-jamming capability, industrial grade board.
Pay attention:
1. The module is an active output, the output voltage equal to the input voltage(DC 5V-30V).
2.'DC
+ 'and' load + 'This is an internal short circuit of the poles, but'
DC- 'and' load - 'poles during use can not be shorted, otherwise the
load can not be controlled on and off, which is equivalent load is been
carrying electricity.
+ 'and' load + 'This is an internal short circuit of the poles, but'
DC- 'and' load - 'poles during use can not be shorted, otherwise the
load can not be controlled on and off, which is equivalent load is been
carrying electricity.
Timing range: