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- Àü¿ø: DC
- Àü¾Ð: 12V
- ¸ÂÃã °¡´É À¯¹«: no
- »ç¿ë¹ý: ÀÏ¹Ý ¿ëµµ
- ÀÌ·Ð: ŸÀÓ ¸±·¹ÀÌ
- ºê·£µå À̸§: Aideepen
- ±Ù¿ø: CN (Á¤Ç°)
¿É¼ÇÁ¤º¸[(144170022)IO53A02 DC 5-24V] [(200004763)IO56D02 DC 12V] [(200004182)IO56D02 DC 24V]![](https://ae01.alicdn.com/kf/S0b292f5816874b10906cfc986431c455r/DC5-24V-IO53A02.jpg_640x640.jpg)
Product Features: 1. Multiple working modes: 9 selectable modes, including instantaneous, self-locking, etc 2. The product is small 3. Wide range of applications: suitable for pushers, electric curtains, automatic doors, etc 4. Support forward or reverse working current 5. Long service life
Product parameters: Working voltage: DC 12V (12V version) or 24V (24V version) (DC power ¡Ã motor load x3); Applicable motor: brushed DC motor; Maximum load current: 4.5A; Signal input: active low level (NPN); Multiple working modes: 9 selectable modes, including instantaneous, self-locking, etc. WORKING CURRENT (EXCLUDING MOTOR): QUIESCENT CURRENT: 4MA, FORWARD OR REVERSE WORKING CURRENT: 40MA Size: 75*40*19mm; Weight: 37.6 grams
Pin Description: VCC: Power + GND: Power Supply - M+: Motor + M-:Motor- GND: Trigger Signal- K1: Forward input control K2: Reverse input control S1: Forward limit signal S2: Reverse limit signal Technical Note: The module has 4 signal input terminals, namely "K1", "K2", "S1", "S2", K1 is the forward rotation signal input terminal, K2 is the reverse rotation signal input terminal, S2 is the forward rotation limit signal input terminal, and S2 is the reverse limit signal input terminal. The signal input source can be selected from microswitch, induction, infrared, metal, remote control and other modules, or controlled by a single-chip microcomputer.
Description of working mode: Mode 0 (default): Self-locking mode, the signal only needs to be triggered once, and the module self-lock keeps running. When encountering a reverse signal during the forward rotation, it should be stopped immediately for 0.3 seconds and then enter the reverse rotation; The limit signal has priority, and when a forward rotation is encountered, the forward limit signal will stop immediately; Forward rotation cannot begin when there is a forward rotation limit signal, and the same is true for reverse rotation; When the low level, that is, the short-term 0V level (negative supply) will be started, the forward rotation signal and the reverse rotation signal are active; The limit signal is normally open; (For example, when SW1 is closed or connected to low, forward rotation cannot begin.) ) Only one limit signal is active at a time, e.g. entering two limit signals at the same time during the reversal process does not stop the motor from rotating.
Mode 1: The auto-start version of Mode 0 adds a power-on auto-start function to Mode 0, that is, every time the module is powered on, the forward rotation will be automatically started. This version is more suitable as a motion module between two points, and when the module is energized, it works automatically. Mode 2: Transient mode. When there is a positive rotation signal, the motor rotates in the positive direction; When there is a reversal signal, the motor reverses; When there is no forward rotation signal and reverse rotation signal, the motor stops; When spinning forward, stop the forward rotation if there is a forward rotation limit; During rotation, if there is a reverse rotation limit signal, the reverse rotation will stop. Removing the two restriction signals does not restore rotation and requires re-entering the rotation signal to start forward and reverse rotation. Mode 3: The level drive mode is functionally similar to an H-bridge and operates according to the following logic: When there is a positive rotation signal and there is no signal at the forward limit, it will rotate in the positive direction; When there is a reverse signal and there is no signal at the reverse limit, it will be reversed; This version is pure logic and is suitable for microcontroller signal input. Note the forward rotation priority, that is, the forward rotation is when both the forward and reverse inputs meet the condition. Pay attention to the real-time nature of the level. For example, when there are signals at both forward and reverse inputs, this is forward rotation. At this point, if the forward signal is removed and the reverse signal is retained, it will be reversed. When the motor rotates, the limit input is invalid and the motor cannot be stopped. Mode 4: Start/stop mode, the function is the same as mode 0, but the following function details are different: If the forward rotation has already started, enter the forward rotation signal again and it will stop immediately; If the reverse rotation has already started, enter the reverse rotation signal again and it will stop immediately. For example: there is a forward signal >> immediate forward rotation; At this point, the forward rotation signal >> input immediately stops the forward rotation. Invert the same. Mode 5: The functionality is the same as mode 0, with the bit-only signal differences as follows: The limit signal is only valid for the current time (leading edge valid). For example, after starting a forward rotation, it stops when a forward limiting signal is encountered. After stopping, although a forward limit signal is still entered, it is still possible to start forward rotation by entering a forward rotation signal. This specification is often used when the unidirectional start and end points are on the same circle of motion, for example, pressing once to form a circle, and pressing again to form another. Mode 6: One-click switch mode, the function is the same as mode 0, but the startup method is different, as follows: Forward rotation signal input, forward rotation after triggering, reverse rotation after triggering, reverse rotation signal input is invalid. Enter a forward rotation signal to start forward rotation and stop forward rotation when there is a signal at the forward limit; Enter the forward rotation signal again, start the reverse rotation, and stop the reverse rotation after the reverse rotation limit has a signal
Product List: Electrostatic bag packaging Relay module*1
Features: 1.Dual power supply (two power sources cannot supply power simultaneously): Power supply 1, DC 6.5-25V; Power supply 2, DC 5V. 2.Working current: (normal mode) standby current 41mA, working current 83mA; (Energy saving mode) The standby current is 7mA, and the working current is 44mA. 3.There are three input control ports: forward control (FWD), reverse control (REV), and stop control (stop). 3.There are two input trigger modes, low pulse trigger mode and low level trigger mode. 4.Delay time: 0.1-9999.9 seconds, 1-9999 seconds, 1-999 minutes. Number of cycles: No cycles, 2-99 cycles, always cycles. 5.Three indicator lights: forward indicator light (F LED), reverse indicator light (R LED), and stop indicator light (S LED). 6.The load current of the relay is recommended to be less than 5A. 7.This is a multifunctional DC/AC motor forward and reverse controller with multiple control modes. Many control functions can be derived through reasonable settings.
Parameter: DC 5.5 female: power supply 1, DC 5V power supply VIN: Power supply 2 positive pole, DC 6.5-25V power supply GND: Negative pole of power supply 2 FWD: Forward input control (some functional modes are invalid) REV: Reverse input control (some functional modes are invalid) STOP: Stop input control (some functional modes are invalid) M+: Motor positive pole M -: Motor negative pole P+: Positive terminal of motor power supply P -: Negative terminal of motor power supply Power supply: DC 5-24V, DC 5V Working current: 83mA Standby current: 41mA Relay load current:<5A Delay time: 0.1-999.9 seconds, 1-9999 seconds, 1-999 minutes
Trigger mode: 1 low pulse trigger (falling edge trigger) 2 low-level trigger (rising edge trigger)
Timer: T1: Forward Timer T2: Reverse Timer T3: Stop Timer Time units: 0.1 seconds, 1 second, 1 minute
Relay action: Motor forward: Relay 1 is turned on, relay 2 is turned off, and the F LED indicator light flashes. Motor reverse: Relay 1 is turned off, relay 2 is turned on, and the R LED indicator light flashes. Motor stop: Relay 1 is off, relay 2 is off, and the S LED indicator light flashes.
Factory settings: Press the "++" and "--" buttons simultaneously for 5 seconds.
Energy saving mode: Press and hold the `OK` button for 5 seconds to enter the `Energy saving mode`. Press and hold the `OK` button again for 5 seconds to exit the `Energy saving mode`. The energy-saving mode only needs to turn off the Nixie tube and LED indicator light, and other functions are normal.
Settings: There are three menus: work menu, function menu, and parameter menu. Note: When entering the "Function Menu" or "Parameter Menu", the module still operates normally (countdown and trigger operate normally). The parameters set are only valid after being powered on again.
Package include: Electrostatic bag packaging Relay module * 1
Product Features: 1. Multiple working modes: 9 selectable modes, including instantaneous, self-locking, etc 2. The product is small 3. Wide range of applications: suitable for pushers, electric curtains, automatic doors, etc 4. Support forward or reverse working current 5. Long service life
Product parameters: Working voltage: DC 12V (12V version) or 24V (24V version) (DC power ¡Ã motor load x3); Applicable motor: brushed DC motor; Maximum load current: 4.5A; Signal input: active low level (NPN); Multiple working modes: 9 selectable modes, including instantaneous, self-locking, etc. WORKING CURRENT (EXCLUDING MOTOR): QUIESCENT CURRENT: 4MA, FORWARD OR REVERSE WORKING CURRENT: 40MA Size: 75*40*19mm; Weight: 37.6 grams
Pin Description: VCC: Power + GND: Power Supply - M+: Motor + M-:Motor- GND: Trigger Signal- K1: Forward input control K2: Reverse input control S1: Forward limit signal S2: Reverse limit signal Technical Note: The module has 4 signal input terminals, namely "K1", "K2", "S1", "S2", K1 is the forward rotation signal input terminal, K2 is the reverse rotation signal input terminal, S2 is the forward rotation limit signal input terminal, and S2 is the reverse limit signal input terminal. The signal input source can be selected from microswitch, induction, infrared, metal, remote control and other modules, or controlled by a single-chip microcomputer.
Description of working mode: Mode 0 (default): Self-locking mode, the signal only needs to be triggered once, and the module self-lock keeps running. When encountering a reverse signal during the forward rotation, it should be stopped immediately for 0.3 seconds and then enter the reverse rotation; The limit signal has priority, and when a forward rotation is encountered, the forward limit signal will stop immediately; Forward rotation cannot begin when there is a forward rotation limit signal, and the same is true for reverse rotation; When the low level, that is, the short-term 0V level (negative supply) will be started, the forward rotation signal and the reverse rotation signal are active; The limit signal is normally open; (For example, when SW1 is closed or connected to low, forward rotation cannot begin.) ) Only one limit signal is active at a time, e.g. entering two limit signals at the same time during the reversal process does not stop the motor from rotating.
Mode 1: The auto-start version of Mode 0 adds a power-on auto-start function to Mode 0, that is, every time the module is powered on, the forward rotation will be automatically started. This version is more suitable as a motion module between two points, and when the module is energized, it works automatically. Mode 2: Transient mode. When there is a positive rotation signal, the motor rotates in the positive direction; When there is a reversal signal, the motor reverses; When there is no forward rotation signal and reverse rotation signal, the motor stops; When spinning forward, stop the forward rotation if there is a forward rotation limit; During rotation, if there is a reverse rotation limit signal, the reverse rotation will stop. Removing the two restriction signals does not restore rotation and requires re-entering the rotation signal to start forward and reverse rotation. Mode 3: The level drive mode is functionally similar to an H-bridge and operates according to the following logic: When there is a positive rotation signal and there is no signal at the forward limit, it will rotate in the positive direction; When there is a reverse signal and there is no signal at the reverse limit, it will be reversed; This version is pure logic and is suitable for microcontroller signal input. Note the forward rotation priority, that is, the forward rotation is when both the forward and reverse inputs meet the condition. Pay attention to the real-time nature of the level. For example, when there are signals at both forward and reverse inputs, this is forward rotation. At this point, if the forward signal is removed and the reverse signal is retained, it will be reversed. When the motor rotates, the limit input is invalid and the motor cannot be stopped. Mode 4: Start/stop mode, the function is the same as mode 0, but the following function details are different: If the forward rotation has already started, enter the forward rotation signal again and it will stop immediately; If the reverse rotation has already started, enter the reverse rotation signal again and it will stop immediately. For example: there is a forward signal >> immediate forward rotation; At this point, the forward rotation signal >> input immediately stops the forward rotation. Invert the same. Mode 5: The functionality is the same as mode 0, with the bit-only signal differences as follows: The limit signal is only valid for the current time (leading edge valid). For example, after starting a forward rotation, it stops when a forward limiting signal is encountered. After stopping, although a forward limit signal is still entered, it is still possible to start forward rotation by entering a forward rotation signal. This specification is often used when the unidirectional start and end points are on the same circle of motion, for example, pressing once to form a circle, and pressing again to form another. Mode 6: One-click switch mode, the function is the same as mode 0, but the startup method is different, as follows: Forward rotation signal input, forward rotation after triggering, reverse rotation after triggering, reverse rotation signal input is invalid. Enter a forward rotation signal to start forward rotation and stop forward rotation when there is a signal at the forward limit; Enter the forward rotation signal again, start the reverse rotation, and stop the reverse rotation after the reverse rotation limit has a signal
Product List: Electrostatic bag packaging Relay module*1
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