Manual servo controller

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You have to consider the nature of the signals that you want to initiate the servo actions, and how many servos you need to control. When you buy through links on our site, we may earn an affiliate commission.

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Some of these are essential for the basic functionalities of our websites. In addition, we use third-party cookies to help us analyze and understand usage. These will be stored in your browser only with your consent and you have the option to opt-out. Your choice here will be recorded for all Make. Share via. But with servo controllers, the selection criteria are more complex, and include the following questions: How many servo motors will you need to control?

Will activation be triggered manually or by an external signal? Do you need programmable on-board memory? Programmable Controllers At the next level of servo driver complexity, programmable controllers store a single servo action defined by a start position, end position, and speed , and then trigger that action automatically.

Computer-Programmable Controllers For the greatest flexibility and complexity, computer-programmable multichannel controllers like the Maestro USB series let you write control scripts that define any sequence of actions that you want each servo to perform. May 10, , pm PDT. Robert H. We use cookies to continuously improve our websites for you and optimize its design and customization. Our websites use cookies to improve your browsing experience.

Allow Non-Necessary Cookies. Send this to a friend. Send Cancel. VDC terminal block for wire connection. Power jack for quick connection of 5 Vdc supply. Servo Travel 0 - 90 Degrees. On-Board servo travel min, max position programming buttons. Servo position reverse A-B, B-A travel switch on controller board. User can set the max and min servo travel position, so then when 12 Vdc is applied the servo will move directly to the max position programmed and hold as long as a 12 Vdc signal is active.

As soon as the 12 Vdc signal is turned off, the servo will move to the min position programmed by the user Power supply, servos not included Product Description Catalog No. The servo is sent to the left and right positions when input V DC is received at the 2 input connectors on the board.

When no input is present, the servo will go to the center position. Power to the servo can be supplied by the board itself, or from an external power supply connected at the Servo Power Connector. To power the servo from the board, the Servo Power Jumper should be in place. To power the servo from an external source, remove the jumper. The board requires 7. Power supply, servos, switch not included Product Description Catalog No. When no input is present, the servo will go to the user pre-set center position and hold.

Each servo end position can be held when 12 VDV signal is present User can pre-program each of the 3 servo end positions L, C, R which is recorded and stored on board EEprom directly through on-board electronics. The board power connection configuration also allows for a servo with different voltage requirements beyond 5 Vdc to be used. The board requires 12 VDC which is attached to the board at the 2. Switch or remote relay applications require a 12 Vdc source pass through to controller board inputs.

The control voltage for a remote switch, remote relay can come from the on board power connector or by a separate power source. This unique board controls the movement of 6 servos as random adjustable, with min and max servo settings set by the user.

The Controller uses 1 master microprocessor and 6 servo microprocessors to operate from. This board is excellent, wherever automated random servo movements are needed. Controller has remote trigger for remote activation, on board LCD, buttons to set and program variables, Power On and Off switch with LED On indicator, Wire terminal blocks, power jack for easy hook-up.

Servo connection header pins, and terminal blocks. Board requires one 6Vdc 6 Amp power supply Servo's and one Vdc power supply for the on board electronics. Board will move 3 servos randomly, independent of each other. You can attach the servos directly to the board or to a small interface board and cable.

Yellow Status LEDs for each servo, servo connection header pins and quick connector wire terminal blocks or power jacks for the board electronics and power for the servos. Run Mode : Once the servo limits of travel have been set, the board can be put into Run Mode. In Run Mode, the on board potentiometers pots will now control the speed of movement for each of the 3 servos as they move randomly between the min and max limits.

There is a 4th on board 3-pin servo connector located near the pin ribbon cable connector on the Main Board. This unique board will allow the control of 4 servos manually via remote 10K potentiometers or by Wizard -1 Board control. The input pots or Wizard Board is selected by on-board slide switch or dry contact closure to the Remote Input Selection terminal block.

When switched to M anual, the 4 servos are independently controlled by the remotely mounted pots. Minimum and maximum limits can be set for each servo but these limits are only in effect when the board is in M anual control. When in W izard mode, the Wizard Board will handle limits for the servos. There is an on-board SS relay that can either be activated by dry contact closure at the Remote Relay Trigger terminal block or by pressing the small pushbutton located next to the relay.

Mode one is running the servo to a programmed minimum and maximum limit by the push of button 1 or 2. The user can activate button 3 to play back a previously recorded user sequence of servo movement up to 15 minutes recorded time. The board requires a power source 7.

Power can be hooked to the board either by a 2. Board can operate by battery power or standard wall power supply adapter Volt dc power supply, battery, switches, Servo and wing mechanical mechanism not included Product Description Catalog No. Two modes of operation are provided and are selected by the on board Mode Switch. There are 2 on-board 10A mechanical relays that work in conjunction to reverse the polarity of the power being supplied to the DC motor that is attached at the Motor Connection Terminal block.

The board takes standard servo input and when the input signal is signaling for full CW servo movement, Relay 1 activates, providing DC power to the motor. When the servo input is signaling for full CCW servo movement, Relay 1 deactivates and Relay 2 activates, reversing the polarity of the DC power to the motor. On-board mini joysticks move the corresponding servo motor over their full travel range when moved. Controller also has on-board Solid State Relay controlled by micro push button switch.

Small board design, entire board fits into the palm of your hand! Quick power connector on-board. Center positive 2. On-board Mini Joysticks - 2 axis control per unit. Each mini joystick controls 2 servos. Requires 5 Volt dc 2 Amp power supply. Servo motors , Power supply - Not included. This unique board was designed to allow the remote operation of a Pan and Tilt camera system and has the ability to activate a cam recorder via an on-board SS relay.

The limits of servo movement is set and stored in non-volatile memory servo Min and Max travel positions. The servos can be moved independently or placed in Pan Mode where the Pan servo sweeps back and forth between the previously stored limits. While in the Pan Mode, the speed of movement left and right can also be adjusted by switch control On-board mini tactile pushbuttons are on the board to allow the testing of all operations. The user will be able to control the camera positions and have the ability to activate a remote recorder via an on-board 2 amp SS relay.

The limits of servo movement is set and stored in non-volatile memory. While in the Pan Mode, the speed of movement can also be remotely adjusted. On-board mini tactile pushbuttons are on the board to allow the testing of all operations.