Research Concepts RC2000C User Manual

RC2000C Az/El Tracking Antenna Controller

Appendix F

AC or Large DC Motors

97

Research Concepts, Inc. • 5420 Martindale Road • Shawnee, Kansas • 66218-9680 • USA

www.researchconcepts.com

The RC1000A and RC2000 antenna controllers count the number of rising and falling edges of the

waveform. The position count is decremented for azimuth ccw movement and incremented for azimuth

cw movement. The waveform's high level should be 4.5 to 5.7 volts, and the low level should be 0.0 to

0.5 volts. The waveform's minimum high or low pulse duration should be at least 10 milliseconds. This

means that pulses less than 10 milliseconds long may not be detected by the antenna controller. The

maximum number of counts from the antenna's azimuth ccw limit to its azimuth cw limit should be less

than 65000. Remember, each rising edge and each falling edge of the sensor's output waveform is a

separate count.

Many large antennas use a sensor attached directly to each of the fundamental axis of the antenna.

The sensor used may be a resolver, synchro, potentiometer, or a quadrature pulse encoder. A pulse

type sensor attached to the fundamental axis of the antenna is not suitable for use with the RC1000A or

RC2000 antenna controllers. The reason for this requires a bit of explanation.

When a rising or falling edge is detected on the antenna controller's sensor input, the antenna controller

must determine whether to increment or decrement the position count. Since single-phase pulse

sensors are used, the antenna controller must determine which way the antenna was last commanded

to move, and decrement or increment the count accordingly. With a pulse sensor connected directly to

the antenna's fundamental axis, when the antenna vibrates back and forth due to wind, the pulse

sensor produces a steady stream of pulses. The antenna controller will increment or decrement the

count depending on which way the antenna was last commanded to move. In reality the antenna is just

vibrating in the wind and not really moving. The result of this is an error in the position count maintained

by the antenna controller.

The antenna controllers are designed to work with 36-volt actuators. With these actuators the pulse

sensor is connected directly to the motor. The motor typically drives either a worm or screw type gear,

which will not allow forces applied to the antenna to cause rotation of the motor. Therefore, no false

counts are recorded by the antenna controller.

On a large antenna, the solution to the sensor dilemma is to place a sensor on the output of the motor.

Most motors attach to either gear reduction systems or linear actuators via a C56 type flange. There

are pulse sensors that may be placed between the motor and the transmission at this flange.

Remember that any pulse sensor used must conform to the requirements of the antenna controller,

which are: 1) the total number of rising and falling edges must not exceed 65000, 2) the duration of the

high and low segments of the waveform must be at least 10 milliseconds, 3) the high level of the

waveform must be 4.5 to 5.7 volts, 4) the low level of the waveform must be 0.0 to 0.5 volts, and 5)

sensor must be a zero speed type which will count rotation of the motor shaft at very low speed.

Inductive pickup type sensors do not generally meet the last requirement.