Heavy duty, pole mountable, air cooled cathodic protection rectifiers
 GENERAL
The AC input of the rectifiers shall be 115, 230 or 460 VAC – single or three-phase – 60 Cycle. ENCLOSURE The cathodic protection rectifier case shall be NEMA 3R, completely weatherproof for outdoor use. The case shall be constructed of not less than eleven gauge steel. All fabrication welds shall be clean and smooth. The entire case shall be hot-dip galvanized per ASTM-123. The cabinet shall be equipped with a suitable pole mounting channel or base mounting legs welded to the case prior to galvanizing. Screens in the ventilation openings at the top and bottom of the case shall be Stainless Steel. The front door shall be hinged on one side and have a positive locking device capable of taking a lock with a 3/8" diameter shank. In addition to the front door, the left side panel of the case shall be hinged and easily removable. The case shall have a slide out rack assembly for accessibility. A grounding lug to accommodate a #6 wire shall be provided on the outside of the cabinet. TRANSFORMER The transformer shall be specifically designed for use in a cathodic protection rectifier, having separate primary and secondary copper windings. Wire size on both windings shall be based on a minimum of 1,000 circular mils per ampere. The material used in the core of the transformers shall be of such quality that core losses do not exceed 0.62 watts per pound. The amount of core material shall be no less than the amount given by the following formula:
The transformer shall be immersed in class F transformer varnish until all taps, insulating materials, outer wrapping and coil windings have been completely saturated. The transformer shall then be oven baked until completely dry. When a three-phase rectifier is specified, it shall be provided with a three-phase transformer with three separate wound legs or three separate transformers. The secondary shall have a sufficient number of coarse and fine taps to provide a minimum of 18 equal step of adjustment. These taps shall be brought out to link bar arrangement for adjusting the output of the rectifier. The link bars shall be terminated on at least a 5/16" stud lug that has one end drilled out so that the transformer tap wire can be soldered to the back of the stud. Quick-change plastic knobs with brass inserts shall be used to connect the link bars to the studs. RECTIFYING ELEMENTS The rectifier stack shall consist of high current density selenium cell arranged to give full-wave rectification. Ratings shall be within the manufacturer’s recommended current rating for continuous operation with a 50°C ambient temperature. The RMS voltage rating of the rectifier stack shall be sufficient to withstand, without damage, the full output of the transformer secondary when the load is disconnected from the DC terminals, i.e., under open circuit conditions. When silicon is used as the rectifying element, current rating for continuous operation shall be for 50°C ambient, and the PRV rating of the diodes shall be at least 1200 PIV. The diodes shall be protected against high voltage surges with selenium surge suppressors. Current and voltage shall be derated for higher ambient temperature, where required, and in accordance with the manufacturers recommendations. PROTECTIVE DEVICES The entire unit shall be protected against overload and short circuit with a fully magnetic circuit breaker of proper rating connected between the AC supply and transformer primary. Circuit breakers shall have two poles for single-phase units and three poles for three-phase units. In case of silicon rectifiers only, fuses shall be inserted in one leg of the AC secondary of single-phase units and in at least two of the secondary legs of a three-phase unit. All fuses greater than 35 amps shall be bolt in style and shall not rely on pressure type fuse holders. DC METERS One DC voltmeter and one DC ammeter shall be provided. Each shall have an accuracy of 2% full scale. Hoyt # 17/3 meters or approved equal shall have minimum scale lengths of 1-5/8". The ammeter shall be connected to an external shunt with an accuracy of at least 1%. The shunt shall be plainly marked to show ampere rating and millivolt drop. This shunt shall be mounted on the front panel of the rectifier so as to be readily accessible for meter accuracy checks. DC TERMINALS Solderless lugs rated for full rectifier output current shall be provided for the positive and negative output terminals of the rectifier and shall be mounted on an insulated panel. Output terminals shall be clearly identified on the panel as "Positive" and "Negative". WIRING & CONDUCTORS All wiring within the rectifier, except the meter circuits, shall be of the high temperature motor lead wire with a minimum of 105°C rating. Wire size shall be based on not less than 500 circular mils per ampere. All current carrying bolts, terminals and connections made through the panel shall be either soldered to the bolt head or made by use of double nut method, so as not to depend on the compression strength of the panel to maintain a tight connection. Tap changing studs and output lugs shall be a minimum of 5/16" diameter. RECTIFIER DATA Each rectifier shall be provided with an engraved metal nameplate with the following information:
In addition, a waterproof envelope, placed in a suitable holder in the rectifier door, shall contain a complete wiring diagram, operating and maintenance manual and a copy of the test data obtained on the final bench check-out of the rectifier. INSTRUMENT PANEL Phenolic grade XXX, non-conductive, moisture resistant, specifically designed for panel board use. APPLICABLE STANDARDS The rectifiers shall meet the appropriate sections of the following standards: |