Motor Speed Controller

RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC

RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC
RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC
RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC
RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC
RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC
RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC
RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC
RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC

RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC   RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC

2 CH Forward Reverse RF DC Motor remote Controller switch for electric hoist 500M Speed adjustable DC 12V/24V 2 channel 10A RF Wireless Remote Motor Switch to control 2 motors 500M. By comparison with other motor remote controller, this controller S2PFS-DC can control speed of motor rotation. It wont depend on the voltage applied because two speed control knobs on the receiver are to adjust the speed of two motors separately. You can control two engines by one remote controller simultaneously.

Maximum working current is 10A for each channel. 1 x Receiver: S2PFS-DC12 / S2PFS-DC24 (2 Channel / Inversion Control Mode / Speed Adjustable). Application: It can be used in rolling blinds, rolling doors, projection screens, awnings, pumps, winches, conveyors or other appliances and equipments with DC motors, it can remote control DC motor rotates in the positive or reversal direction. Wireless control, easy to install. You can rotate two motors separately in the positive or reversal direction with the transmitter (remote control) from any place within a reliable distance.

The RF wireless signal can pass through walls, floors and doors. High Power: Each channel can work at maximum current 30A.

You can turn on/ off the receiver with transmitter (remote control) from any place within a reliable distance. Wireless RF signal can pass through walls, floors, doors or windows.

With reverse power protection and over current protection. Reliable control: The receiver only works with the transmitter which use same code. One/several transmitters can control one/several receivers simultaneously. You can use two or more units in the same place.

Control Mode: Latched and Momentary. Power Supply (Operating Voltage): DC12V±1V (S2PFS-DC12), DC24V±1V (S2PFS-DC24). Output of Relay: DC12V (S2PFS-DC12), DC24V (S2PFS-DC24). Working Frequency: 315MHz / 433MHz. Channel: 2 CH, can work with 2 DC motors.

Maximum Working Current: 10A / each channel. PCB size: 185mm x 105mm x 30mm. Case size: 200mm x 120mm x 55mm. Work with Fixed code transmitters. Button Symbol: Two, Two, Two.

Operating Voltage: 12V (1 x 23A -12V battery, can be used for 12 months). Operating Frequency: 315Mhz / 433Mhz. Encoding Type: Fixed code by soldering, up to 6561 codes. Transmitting Distance: 500m / 1500ft (theoretically). The distance of 500m is a theoretical data, it shall be operated in an open ground, no barriers, no any interference.

But in the practice, it will be hindered by trees, walls or other constructions, and will be exposed to some interference by other signals. Therefore, the actual distance may or may not reach 500m. If you stretches the telescopic antenna, it can have a further working range, which is twice as much as it used to be. Operating Temperature: -20 ° C to +70 ° C. Unit Size: 110mm x 50mm x 18mm.

Uses: garage doors, motorcycles, car alarm products, home security products, wireless remote control products, industrial control products. How to set up the 8-bits code of the transmitter.

Open the transmitter shell, then you will see the circuit board. There are two rows pads and one row of chip feet on the back side. The left row of pads is L side, and the right row of pads is H side. If solder the middle row of chip feet to the L side, it is code 1. If solder the middle row of chip feet to the H side, it is code 2.

Dont solder to any side, it is code 0. The 8-bits code order is from top to bottom (from D1 to D8).

Here is an example, the 8-bits code in the picture is 10021000, solder as the following way. Code 0: dont solder any side, like D2, D3, D6, D7, D8. Code 1: solder to the L side, like D1 and D5. Code 2: solder to the H side, like D4.

This receiver can work with different transmitters. Such as model CP-6 (500M), CV-6-2 (500M), or CB-6 (1000M) etc. With a transmitter (such as CV-6-2) to form a complete set, the maximum working distance can reach 500M in an open ground. The maximum working distance is a theoretical data, it shall be operated in an open ground, no barriers, no any interference.

But in the practice, it will be hindered by trees, walls or other constructions, and will be interfered by other wireless signals. Therefore, the actual distance may not reach this maximum working distance. If you want to have a further working range, you can install an external antenna to the receiver, and you also can use a powerful transmitter, such as CB series transmitters. Connect the positive pole of DC power supply to terminal + of INPUT, and connect the negative pole of DC power supply to terminal - of INPUT.

Connect terminals A1 and B1 to motor 1, connect terminals A2 and B2 to motor 2. Setting control mode Latched: Do not connect Jumper-1 (CN1) or Jumper-2 (CN2). Press button on the left: motor 1 rotates in positive direction Press button on the left: motor 1 rotates in reversal direction Press button on the left: motor 1 stops Press button on the right: motor 2 rotates in positive direction Press button on the right: motor 2 rotates in reversal direction Press button on the right: motor 2 stops.

Setting control mode Momentary: Only connect Jumper-1 (CN1). Press and hold button on the left: motor 1 rotates in positive direction Release button on the left: motor 1 stops Press and hold button on the left: motor 1 rotates in reversal direction Release button on the left: motor 1 stops. Press and hold button on the right: motor 2 rotates in positive direction Release button on the right: motor 2 stops Press and hold button on the right: motor 2 rotates in reversal direction Release button on the right: motor 2 stops. Speed of motor can be adjusted by the knobs. Twist the knobs anti-clockwise, the speed will be faster.

Twist the knobs clockwise, the speed will be slower. Knob 1 controls motor 1; Knob 2 controls motor 2. How to pair the transmitter to the receiver.

1 Press the learning button of receiver for 1- 2 seconds; signal LED on the receiver is on. The receiver enters into status of LEARNING. 2 Press any one button on transmitter.

If signal LED flashes quickly 15 times and turns off, it means learning is successful. 3 When receiver is in the status of LEARNING, press again the button of receiver, signal LED turns off, learning process will be discontinued. 4 The receiver can learn several remote controls with different codes.

We have learned remote control to the receiver. If you dont want the receiver to work with the remote control, you can delete all codes of remote controls, which are stored in the receiver. Operation: Press and hold the button of receiver until signal LED flashes slowly; release the button, LED keeps slow flash.

That means all stored codes have been deleted successfully. We are not responsible for wrong address. The item "RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC" is in sale since Wednesday, January 9, 2013. This item is in the category "Home, Furniture & DIY\DIY Materials\Electrical Fittings".

The seller is "carymart-uk" and is located in shenzhen. This item can be shipped worldwide.

  • MPN: Does Not Apply
  • Brand: CaryMart

RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC   RF Wireless Remote Radio Motor Controller Speed adjustable Forward Reverse 12VDC