Timer Rele 1ch Multifuncion 12v Display Itytarg Ver más grande

Timer Rele 1ch Multifuncion 12v Display Itytarg

13694

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$ 12.000,00 IVA Inc.

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Importante: Este timer es un dispositivo con una gran cantidad de opciones de configuración. No es un dispositivo simple para principiantes, por lo que se recomienda leer atentamente las instrucciones. Si no comprende su funcionamiento, por favor no compre el producto, no se brinda asistencia para su configuración.

Product introduction

The module adopts high quality power relay, high power and high voltage transistor, red and blue signal indicator light. Military grade double-sided PCB board, cloth board with comprehensive consideration, stable performance, can be widely used in a variety of power control occasions.

Functional features


* With 2 channels of input and output control, each channel can be set with 20
functions to meet more application requirements.

* It has the power supply anti-reverse connection function, so that the module will not be damaged because of the wrong power supply.

* High voltage power module is adopted to ensure system stability and reliability.

* The timing function can be set to at least 0.1 second, and the timing accuracy is better than 0.01 second.

* Add automatic power saving, which can be set by users.

* All Settings can be automatically saved, and the Settings will not be lost during power failure.

Electrical parameters

Operating voltage: de 5V, 12V, 24V three optional (should not exceed the nominal voltage +/-10%)

Working current: less than 180mA when 5V (less than 15mA when the relay does not operate, close display at 3mA)

Less than 90mA at 12V (less than 15mA when the relay is not operating, close display at 3mA)

24V less than 60mA (less than 15mA when the relay does not operate, close the display stripping at 3mA)

Operating temperature: recommended -20” Cto 60” C (limit operating temperature range -30” Cto 70” C)

Limit of use: the service life of the relay is 100,000 times of full load operation, so it is more suitable for use in the occasion of low suction times and large current control, not suitable for use in the occasion of fast and repeated operation.

Load capacity:

Maximum load capacity of the regular opening of the relay: DC 0-30V/10A. AC 0-250V/10A

Maximum load capacity of relay normally closed port: DC 0-28V/10A, AC 0-125 V/10A

Pay attention to the load allowance of the relay port, the pure resistance load should be left with more than 1 time, and the general inductive or capacitive load should be at least 3 times more.

Product features

The user can choose one of the following 20 functions by pressing the button and displaying the digital tube. The function parameters can be set at will. The parameters can be saved after power failure.

Tips:

Functions 1-8 automatically start upon power-on; Functions 9-20 require high level pulse signal to trigger the start (high level lasts no less than 20ms, the same as below)

Function 9 is in self-locking mode and function 10 ¡is in level control mode

Feature 1:
Timing pull-in: After power-on, the delay T1 time relay pull-in. T1 can be adjusted between 0.1s and 270h. A high level pulse signal is given to the CH1 interface and the function is repeated more than once.

Feature 2:
Timed disconnection: the relay pulls in during power-on, and the relay is disconnected after T1 delay. T1 can be adjusted between 0.1s and 270h. A high level pulse signal is given to the CH1 interface, and the function is repeated more than once.

Feature 3:

Timing pull and then disconnect: after power-on, the relay does not pull first, and the relay pulls when the delay time T1 arrives; When the closing time T2 arrives, the relay is disconnected. The delay time T1 and T2 can be adjusted between 0.1s and 270h. A high level pulse signal is given to the CH1 interface and the function is repeated more than once.

Features 4:

Timing disconnect and then pull in: after power-on, the relay immediately pull in, the relay disconnect after the arrival of the delay time T1; After the disconnect time T2 arrives, the relay pulls in. The delay time T1 and T2 can be adjusted between 0.1s and 270h. A high level pulse signal is given to the CH1 interface and the function is repeated more than once.

Function of 5:

Infinite cycle timing mode 1: after power-on, the relay does not pull in first, and the relay pulls in after the delay time T1 arrives; The relay is disconnected when the closing time T2 arrives, and then the above state is repeated. The delay time T1 and T2 can be adjusted between 0.1s and 270h. A high level pulse signal is given to CH1 interface to restart the above functions.

Features 6:

Infinite cycle timing mode 2: after power-on, the relay immediately pulls in, and the relay disconnects when the delay time T1 arrives; After the disconnect time T2 arrives, the relay pulls in and then repeats the above state. The delay time T
1 and T2 can be adjusted between 0.1s and 270h. A high level pulse signal is given to CH1 interface to restart the above functions.

Function 7:

Finite cycle timing mode 1: On the basis of function 5, the function of cycle times is added. At this time, T1 and T2 can be adjusted between 0.1 seconds and 9999 seconds, and the cycle times NX can be adjusted between 1 and 9999 tim
es. A high level pulse signal is given to the CH1 interface to restart the above functions.

Function 8:

Finite cycle timing mode 2: On the basis of function 6, the function of cycle times is added. At this time, T1 and T2 can be adjusted between 0.1 seconds and 9999 seconds, and the cycle times NX can be adjusted between 1 and 9999 times. A high level pulse signal is given to CH1 interface to restart the above functions.

Function of 9:

Self-locking relay mode: a high level pulse signal is given to relay CH1 interface, the relay pulls in, and a high level pulse signal is given to relay disconnect.

Function of 10:

Trigger relay mode: give a high level signal to relay CH1 interface, relay pulls in, high level disappears, and relay is disconnected.

Function 11:

Trigger timing pull-in: the relay does not operate after power-on, but sends a high level pulse signal to the CH1 interface. The relay pulls in after delay T1, andT1 can be adjusted between 0.1 s and 270 h. Repeat a high level pulse signal to the CH1 interface and repeat the function more than once.

Features 12:

Trigger timing disconnection: the relay does not operate after power-on, but sends a high level pulse signal to the CH1 interface. The relay pulls in. The delay time is T1, and T1 can be adjusted between 0.1 s and 270 h.

Function of 13:

Trigger the timing pull-in and then disconnection: after power-on, the relay does not operate and sends a high level pulse signal to the CH1 interface. After the delay time T1 arrives, the relay pull-in; When the closing time T2 arrives, the re
lay is disconnected. The delay time T1 and T2 can be adjusted between 0.1s and 270h. Repeat a high level pulse signal to the CH1 interface and repeat the funection more than once.

Function of 14:

Trigger timing disconnect and then pull in: after power-on, the relay does not operate, but sends a high level pulse signal to CH1 interface. The relay immediately pulls in. After the delay time T1 arrives, the relay disconnects. After the dis
connect time T2 arrives, the relay pulls in. The delay time T1 and T2 can be adjusted between 0.1s and 270h. Repeat a high level pulse signal to the CH1 interface and repeat the function more than once.

Features 15:

Infinite cycle timing mode 1: after power-on, the relay does not operate and sends a high level pulse signal to the CH1 interface. After the delay time T1 arrives, the relay pulls in; The relay is disconnected when the closing time T2 arrives,and then the above state is repeated. The delay time T1 and T2 can be adjusted between 0.1s and 270h. The above functions can be restarted by repeatedly sen
ding a high level pulse signal to the CH1 interface.

Function of 16:

Infinite cycle timing mode 2: After power-on, the relay does not operate, but sends a high level pulse signal to the CH1 interface, and the relay closes immediately. After the delay time T1 arrives, the relay disconnects; After the disconnect time T2 arrives, the relay pulls in, and then repeats the above state. The delay time T1 and T2 can be adjusted between 0.1s and 270h. Repeat a high level pulse signal to CH1 interface to restart the above functions.

Features 17:

Limited cycle timing mode 1: On the basis of function 15, the function of cycle times is added. At this time, T1 and T2 can be adjusted between 0.1 seconds and 9999 seconds, and the cycle times NX can be adjusted between 1 and 9999 times. Repeat a high level pulse signal to CH1 interface to restart the above functions.

Features 18:

Limited cycle timing mode 2: On the basis of function 16, the function of cycle times is added. At this time, T1 and T2 can be adjusted between 0.1 seconds and 9999 seconds, and the cycle times NX can be adjusted between 1 and 9999 times. Repeat a high level pulse signal to CH1 interface to restart the above functions.

Function of 19:

Conditional cycle mode 1: When the relay is powered on, it disconnects and sends a high level signal to CH1 interface. After the delay time T1 arrives, the relay pulls in. As long as the high level of CH1 port does not disappear, the module will repeat the above action. T1 and T2 can be adjusted between 0.1 second and 270 hours. If the high level signal of CH1 port disappears, the relay will be disconnected immediately and the function will be reset.

Function: 20:

Conditional cycle mode 2: The relay is disconnected during power-on, and a high level signal is sent to CH1 interface. The relay pulls in, and the relay is disconnected after the pull in time T1 arrives. After the disconnect time T2 arrives, the relay pulls in. As long as the high level of CH1 port does not disappear, the module will repeat the above action. The delay of T1 and T2 can be adjusted between 0.1 seconds and 270 hours.

User preferences

4 parameters can be set (4 blue LED lights indicate the 4 parameters respectively:

[MD]: THE MD indicator is on, the digital tube displays the current channel and program functions, and a total of 20 functions can be selected from 01-20 preset.

[T1]: T1 indicator light, digital tube display timing time T1, can be 0-9999
[T21: T2 indicator light high, digital tube display timing time T2, can be 0-9999
[NX]: THE NX indicator light is on, and the contents displayed on the digital tube may have different meanings in different functions:

1. In function 1-6 and function 11-16, the content of NX digital tube indicates the time base of T1 and T2 timing. The first two digital tube contents indicate T1, and the last two digital tube contents indicate T2.

+ For example, NX is "0101", indicating the timing time unit of T1 and T2 is 1 second; Another example: NX is "1002" T1 timing unit is 10 seconds, T2 is 2 seconds.

+ 1f NX is "0051 ", hT1 hemhouse unit is 0.1 seconds, T2 unit is 51 seconds, if T1 set value is 0271, show 271*0.1=27.1 seconds, T2 set value is 800, show 800*51=40800 seconds, about 11 hours, So the maximum timing time ¡is 9999*9 9 seconds, which is about 270 hours.

2. In functions 7, 8 and 17.18, when the NX indicator ¡is high, the contents of the 4-digit digital tube is the number of cycles. At this time, the time unit of T1 and T2 ¡is fixed to 1 second, so the maximum timing time of the finite cycle mode is 9999 seconds

Working mode

After power-on and startup, ¡t enters the working mode, the LED indicator lightflashes, and the digital tube displays the countdown of the current timing time.

When the time is set to zero, the current function number is displayed. For example, "2-01" indicates that the second channel is currently performing function 1.

1. Press [SET] to enter the power-saving program, the display is off, but the program runs normal ly. Click again to restore display.

2. Press [SWI] to switch the current display. For example, the running status of the first channel is displayed by default after the device is powered on.

3. Long press [SET] to enter [Setting mode]

4. Hold down [SWI] to enter [View mode]

5. Hold [NUM+] to enter the automatic power saving mode for 10 seconds. If the digital tube blinks three times, the setting is successful. After entering the power saving mode, ¡f no key is operated within 10 seconds, the nixie tube display will be closed, but the program runs normally. You can press [SET] to temporarily restore the display, or you can press [NUM+] again to exit the automatic po
wer saving mode. The nixie tube will flash twice, indicating that the setting issuccessful.

6. Hold down [NUM-] to reset the current function, and then press [NUM-] to resume operation; After entering the reset stop state, the LED indicator no longer flashes.

View mode

1. After the device is powered on, hold down the [SW] button. When all indicators are high and off, the parameter viewing mode is intered.

2. In this mode, you can view the parameters of the current function and the values set by the user. The viewing mode does not affect the continuation of the current function.

3. Press [SET] to switch parameters. You can select one of them [MD], [11], [T2] or [NX].

4. Press [SW] to switch to the channel currently displayed. For example, the parameters of the first channel are displayed by default after the startup.

5. Long press [SWI] to turn off all indicators at full height, exit [view mode], and return to the working mode]

Set the mode

1. After power-on, long press the [SET] button to enter the setting mode, and the nixie tube starts flashing. In this mode, you can select an option.

2. Functions and setting parameters, once entering the setting mode, all functions stop running well and enter the initial state; When you exit the setup mode, the module immediately starts running the selected function.

3. Press [SET] to switch the parameters to be SET. You can choose one of [MODJ, [11], [T2] or [X10].

4. Press [SWI] to switch the selected nixie tube. The selected nixie tube will flash and display.

5. Press [NUM+] to increase the number of the selected nixie tube by 1 until it reaches 9.

6. Press [NUM-] to reduce the number of the selected digital tube by 1 and stop when it reaches 0.

7. Hold down [SET] to save the parameters and enter [Working Mode].

Warm prompt

1. You can set the parameters of two channels at a time and save them together
2. When setting the [MOD] parameter, the first nixie tube is displayed, indicating the currently selected channel.

For example, 1-0 1 indicates function 1 of channel 1. In this case, the other three parameters [T1], [T2], and [X10] indicate parameters of function 1 of channe 11

3. When setting the [MOD] parameter, ¡f the content of the first nixie tube is changed (that ¡s, the channel is switched), all parameters of the other channel will be immediately brought in. At this time, the parameters displayed on the nixie tube will be immediately updated to the content of the current channel.

Set routine 1:

Use the first channel to control a desk lamp, press the button each time to run automatically for an hour, and then turn off the application. Function 10 or 12 can be selected. The wiring method can refer to the wiring diagram, and we will take function 12 as an example.

MOD= "1-12 ”, (-channel, function 12)

T1= "3608", (3605)

T2= "XXXX', (X is any value, not shed)

NX= "01XX ", (T1 is in 1 second, X ¡is any value, not used)

At the same time, the input detection interface CH1 ¡is used as the user switch.
The following ¡is the setting process:

1. Long press [SET] to enter [Setting mode]. You can see that the MOD indicator is high and the last bit of the nixie tube ¡is flashing, indicating that the current nixie tube is displaying the value of the parameter MOD.

2. Press [NUM+] and [NUM-] to adjust the value of the current flashing nix tube, press [SWI] to switch the flashing nix tube, and press [NUM+] and [SW] to set the MOD value to 1-12.

3. Press the [SET] button again. lf the T1 indicator ¡is high, press the [NUM+] and [SWI] buttons to SET T1 to 3600.

4. 1f T2 is not pasted, no setting is required; Bits of

5. NX needs to be set to "0101" to indicate that the timing base of T1 and T2 is 1 second.

6. Hold down [SET] to save the Settings and exit the setting mode. The SET function will run immediately.

Set routine 2:

Control the machine with the second channel. Each time you power on the machine, it will run for 1 hour, stop for 10 minutes. This cycle will work 5 times and the machine will shut down.

This application can select Function 8, and the parameters are set like this:
MOD= '2-08", (channel 2, Function 8)

T1 ="360"

T2 = "0600"

NX= "000 5" (where NX represents the number of cycles)

Wiring instructions

Tips: If the user load and the FRMO1 module use the same DC power supply, the power supply capacity may be insufficient or the line connection is inappropriate, which may cause the module to work stably.

Handle the problem as follows (even if no problem ¡is found temporarily, followthe following advice) :

1. Separate cables: Two cables should be drawn from the positive terminal of the DC power supply, one of which is connected to the DC+ interface of FRMO1 for the module, and the other is connected to the NO port for the load. The negative terminal of the power supply should be treated separately in the same way.
2. Replace the larger output current of the power supply: if the motor is inductive or capacitive load, such as the capacity of the dc power supply to choose, such as the use of 1 a bigger motor to choose 3-5 a power supply is reasonable, because of the motor starting current is rated current of 3 to 7 times, ¡f the power supply capacity is too small, lead to voltage instantaneous fall, cause FRMO1 module reset.

3. Connect the capacitor: lf the above two measures do not achieve the desired effect, please connect an electrolytic capacitor with a capacity of 470uF /35V or more between DC+ and DC-.

Interface specification

Module voltage/signal input:

3- wire interface, all interfaces are terminals, easy to use

DC+: indicates the positive terminal of the DC power supply

DC-: indicates the negative electrode of the DC power supply

XM: the common end of the photoelectric isolation signal input

X1: input signal detection interface 1

X2: input signal detection interface 2

Note: The input signal detection interface is high level effective;

3V-30V is the effective high level voltage;

0-1.5V is invalid low-level voltage;

1.5V-3V is an unpredictable voltage;

This voltage range should be avoided;

Relay load output terminal:

There are 6 wire ports, all of which have wiring terminals

NO1: normally open interface of the first relay, suspended before the relay closes, and short-connected with COM1 after the relay closes.

COM1: First relay public interface

NC1: normally closed interface of the first relay. lt is short-connected with COM1 before the relay ¡is pulled in and suspended after the relay is pulled in.NO2: normally open interface of the second relay, suspended before the relay closes, and short-connected with COM2 after the relay closes

NO2: normally open interface of the second relay, suspended before the relay closes, and short-connected with COM2 after the relay closes.

COM2: second relay public interface

NC2: normally closed interface of the second relay, the relay ¡s short-connected
with COM2 before pulling, and suspended after pulling.

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