625 East Saint Germain Street - Saint Cloud, MN Call Now: 320-251-3911
  • As your Automotive partner


    Your success is vital to our success!


  • Need an Alternator Rebuilt


    We can help. Give us a Call today!


  • Car not Starting


    We can get you off and going!


Exciting News

Reds Auto's Two Locations have merged into one. Along with the increase in service, we will be offering a limited delivery and pick up service for many of the Red's Auto Electric new and existing customers. All services will be performed at the Red's Auto Electric East location at 625 East St. Germain Street, St. Cloud. Please contact us with any questions you may have, or if you would like to take advantage of ournew pick up and delivery service.

We would like to thank you, the customers, for all the loyalty over the years. We're excited to service your needs in the future!

Whats does my Alternator do?

Alternators produce the current needed to meet vehicle electrical demands while the engine is running. They also replenish the energy that the battery used to start the vehicle. An alternator has the ability to produce more current at lower speeds than the DC generators that were once used by most vehicles.. An alternator consists of an internal rotor mounted supported by bearings at the front and rear. The rear section of the alternator is called the slip frame. It is where the rear bearing is mounted as well as the brushes and diodes needed. The front half of the alternator is called the drive end. The drive end contains the front bearing which supports the front shaft of the rotor. The center section of the alternator contains the stator. The stator consist of three separate coiled wire sections assembled in the shape of a ring. The rotor used in the alternator has two slip rings at the rear of the rotor that contact the alternator brushes. The rotor contains wire wrapped in coils around a soft metal core, usually cast iron. The wire coils in the rotor are called the field coils. When power is applied through the rotor it becomes a magnet. When the drive belt rotates the magnetized rotor inside the stator, an electrical current is produced. The current that is produced is alternating current due to the rise and collapse of the magnetic field as the rotor is spun. The diodes are used to convert the alternating current into a direct current. Because of the design of the alternator it is able to produce electricity more efficiently than a generator at low RPM. Battery life is extended due to less frequent discharge at low speeds.

Alternators fail many different ways.

Rotors can develop an internal short or open causing no output since the rotor loses its ability to produce a magnetic field. Stator windings can short or become open, reducing the amount of current produced from the alternator. Diodes can short or become open, causing low current output. Alternator diodes can be damaged by improper testing. Removing the battery cable from the battery while the engine is running can cause catastrophic failure of the alternator diodes. The vehicles battery helps to control the voltage output of the alternator. When the battery cable is removed when the engine is running with a working alternator, the voltage produced by the alternator can reach above eighty volts. The high current flow can cause damage the diodes as well as other electrical components of the vehicle.

What is a Voltage regulator?

Voltage regulators used are almost all solid state. Most are mounted inside the alternator. This reduces the amount of wiring on a vehicle and eliminates the need to create space to mount the voltage regulator under the hood. Voltage regulators help to maintain current output of the alternator at a specified level. The operating voltage of a running engine is usually around 14 volts. The voltage regulator works by regulating the current flow through the field coil of the alternators rotor. Current values are preset into the voltage regulator. When the charging system reaches the specified level, the voltage regulator limits current flow through the field coil. When system demand is high and voltage level drops, the voltage regulator supplies more current through the field coil, resulting in higher current flow from the alternator.