FIGURE  7-3                                          Chapter 7:  Controlling Your Motors  131
                          Starter solenoid
                           type of relay.















                                    coil with a movable metal rod down the middle—to pull a shorting bar across a
                                    pair of contacts. Commonly known as starter solenoids, they are used for
                                    high-current, intermittent-duty applications such as running the starter motor on
                                    an internal combustion engine. Industrial starter solenoids are available for power
                                    levels of up to 400 amps. Some solenoids have one side of the coil internally con-
                                    nected to one of the internal contacts. These are designed for automotive use, in
                                    which the motor circuit and the coil circuit have a common return line to the battery.
                                    These solenoids can be used for robot combat applications, provided that the com-
                                    mon line is taken into account when designing the electrical system.
                                      One thing you cannot do is connect multiple relays in parallel to get a higher cur-
                                    rent capacity. The closing of a relay contact is a slow event, as compared to the time
                                    it takes for current to start flowing through the motor. Because of manufacturing
                                    differences, all the relays would not close at the same time, so the first relay to make
                                    contact—or the last relay to break contact when opening the circuit—would take
                                    the entire motor load by itself. So a bank of relays wired in parallel can still safely
                                    switch only as much current as any single relay acting alone could.
                                      The coil of a relay should be operated at the voltage for which it was designed.
                                    Running the coil of a relay on less than its design voltage can result in insufficient
                                    pressure on the contacts, reducing the area of metal through which current is flowing
                                    and increasing the chances of welding. Running a relay coil on more than its in-
                                    tended voltage can result in the coil burning up and overheating, especially on relays
                                    designed for intermittent use. Running the relay coil on more than its intended
                                    voltage doesn’t offer any advantage in reliability or performance, although it may
                                    make the robot’s wiring simpler if the motors are being run off a different voltage
                                    than the relay was designed for. For the duration of a typical combat match, most
                                    relays can survive twice their intended operating voltage, although this should be
                                    tested prior to a match. The voltage polarity applied to the relay coil itself usually
                                    doesn’t matter, but some relays have diodes internally wired across the coil con-
                                    nections and must be connected with the appropriate polarity.