DB 750-205 January 2007 Supercedes: December 2006 Now available with Vacuum Interrupter Monitor VBT Switch 15kV - 69kV VBU-T Switch 69kV - 230kV Longest Life Product for Electric Furnace Applications! 100,000 Operations No Routine Maintenance Required!
The operation of electric furnaces require large amounts of power to be under constant control. The Transmaster switch is rugged and can withstand this kind of duty. The Joslyn VBT and VBU-T switches operate uniformly on all power factors and are available for system voltages from 15kV up to 230kV. If the primary circuit breaker used as a switching device for control of transformer magnetizing, load and secondary fault currents, this will result in the circuit breaker being opened and closed more than 100 times per day. This wear and tear causes even the most durable breakers to require frequent maintenance. Maintenance is costly! Joslyn engineers worked closely with electric furnace manufacturers to develop the Transmaster Electric Furnace Switch - a heavy duty vacuum switch designed to deliver maintenance-free switching of electric furnaces. Since 1962, over 3500 field installations worldwide have proven the capability and reliability of the Transmaster Electric Furnace Switch. 38kV 600 Amp Transmaster Switch Fault Protection Visible Isolation Primary Interrupter Loss of Vacuum Detector Overvoltage Protection Furnace Transformer Circuit Breaker Motorized Air Switch Equipped with Vac-Rupter Interrupter Transmaster VBT or VBU-T VacStat or Power Circuit Monitor Station Class Arresters RC Network Motor with Independent P Operator Pole, Point on Wave, Vacstat C Synchronous M Closing Control Remote Position Indicator Alarm Alarm see Page 6 see Page 7 see Page 8 2
LONG, MAINTENANCE-FREE LIFE Economic reliability providing long service under demanding conditions, designed for 100,000 operations LOW COST INSTALLATION Factory assembled for quick and easy connections and wiring - complete installation made in less than 12 hours VACUUM INTERRUPTION No oil or gas used for interruption or insulation SAFETY No visible or hazardous arcing and no hot exhaust or ionized gas dissemination EASY TO TEST Vacuum interrupter condition can be determined by a high-potential withstand test quickly without any dismantling LIGHTWEIGHT MODULAR DESIGN No special foundations or costly support required FUSED CUTOUT Removable fuses provide protection and allow for the disconnection of control power at cabinet COMPLETELY SEALED CONSTRUCTION Operating mechanism completely sealed eliminating contamination and pressure differentials RESTRIKE FREE Vacuum contacts withstand excessive overloads and system short circuits at any power factor SERVICE Replacement parts readily available requiring minimal labor OPTIONS: Extra auxiliary contacts Heater Stainless steel enclosure Pushbuttons Local/remote switch Point On Wave Control WEATHERPROOF CONTROL CABINET Interconnection wiring is easily accessible AUXILIARY CONTACTS Eight heavy-duty auxiliary contacts are provided for remote indications, control, and interlocking of other furnace functions or equipment UNDERVOLTAGE TRIP Capacitor discharge circuit trips switch open upon loss of control voltage IMPROPER SEQUENCE Circuit trips switch open if one mechanism does not close within the specified time. ANTI-PUMP Prevents switch operation if an open and close command are made simultaneously. High Voltage Terminal Epoxy Housing Vacuum Contact Solid Dielectric Joslyte Insulation Porcelain Insulator Dead Soft Copper Shunts High Voltage Terminal Pull Rod SINGLE VACUUM MODULE CUTAWAY The interrupter is enclosed in a high dielectric epoxy housing and encapsulated with Joslyte solid dielectric polyurethane insulation to provide a safe, highly reliable voltage barrier resistant to vibration, temperature and moisture. No gas, oil or other medium is required to maintain electrical properties. 3
15kV - 69kV Maximum Voltage 15.5kV 38kV Continuous Current (Amperes) 600 1000 1500 2000 3000 4000 600 1000 1500 2000 2500 3000 Momentary Current (RMS Amperes, Asymmetrical) (ka) Impulse Withstand Open-Gap Impulse Withstand Line-to-Ground Line-to-Ground Dry (One Minute) (kv) Line-to-Ground Wet (Ten Seconds) (kv) Fault Interrupting Rating (Amperes, Symmetric) (ka) 20 35 50 65 65 65 20 35 50 65 65 65 110 110 110 110 110 110 200 200 200 200 200 200 150 150 150 150 150 150 200 200 200 200 200 200 112 112 112 112 112 112 112 112 112 112 112 112 55 55 55 55 55 55 55 55 55 55 55 55 4 4 4 4 4 4 4 4 4 4 4 4 Maximum Voltage 48kV 69kV Continuous Current (Amperes) 600 1000 1500 2000 2500 3000 300 400 Momentary Current (RMS Amperes, Asymmetrical) (ka) Impulse Withstand Open-Gap Impulse Withstand Line-to-Ground Line-to-Ground Dry (One Minute) (kv) Line-to-Ground Wet (Ten Seconds) (kv) Fault Interrupting Rating (Amperes, Symmetric) (ka) 20 35 50 65 65 65 15 15 220 220 220 220 220 220 280 280 250 250 250 250 250 250 350 350 112 112 112 112 112 112 245 245 55 55 55 55 55 55 198 198 4 4 4 4 4 4 4 4 4
72kV - 242kV Maximum Voltage 72kV 121kV 145kV 161kV 242kV Continuous Current (Amps) 600 1000 1500 600 1000 1500 600 600 600 Momentary Current (RMS Amperes, Asymmetrical) (ka) 40 50 50 40 50 50 40 40 40 Impulse Withstand Open-Gap 400 400 400 550 550 550 650 750 950 Impulse Withstand Line-to-Ground Line-to-Ground Dry (One Minute) kv Line-to-Ground Wet (Ten Seconds) (kv) Fault Interrupting Rating (Amperes, Symmetric) (ka 350 350 350 550 550 550 750 750 900 175 175 175 293 293 293 350 365 425 175 175 175 281 281 281 350 315 350 4 4 4 4 4 4 4 4 4 VBU-T Transmaster Module Cutaway VBU-T Transmaster Switch Installation 69kV 600 Amp 5
The purpose of the independent pole, point on wave, synchronous close system is to reduce transformer energization transients by being able to close each pole at the natural current zero point. The expected benefits include significantly reduced inrush currents, reduced electromechanical stress on transformer bushings and windings and reduced stress on all equipment associated with the closing circuit of the transformer. APPLICATION When an electric furnace switch is called on to close, a random closing occurs, which can energize the transformer at any point on the voltage waveform. This produces high magnitude transient inrush currents rated 1000% of full load current. The point on wave control is designed to energize the transformer at the optimal point on the voltage waveform which provides these BENEFITS: LONGER EQUIPMENT LIFE Reduces mechanical forces on the transformer bushings and windings, resulting in lower total ownership cost INCREASED SAFETY Less electrical stress on transformer interwinding insulation REDUCED MAINTENANCE COSTS Minimal wear on components decreases maintenance requirements Point on Wave Control INCREASED RELIABILITY Reduces stress on all other components of the furnace The RF-2 vertical air break switch is available from 15kV to 230kV with continuous current ratings from 600A to 3000A. A full range of load break interrupter attachments and motorized operators are available as additional equipment. Our interrupter attachments offer load break capability up to 2000A. RF-2 Vertical Air Break Switch with UVI Interrupter 6 JMO Motor Operator
Vacuum Interrupter Monitor System The VacStat is the only system that can give you real-time status of your vacuum interrupters. This simple device will notify you immediately of a loss of vaccum through a visual indicator located on the switch and via a contact in the Transmaster control. The VacStat can reduce down time while preventing costly failures during a heating cycle. VacStat will save you time and money by notifying you immediately of vacuum interrupter issues. FEATURES: Real-Time Vacuum Interrupter Status Reduced Down Time Reduced Maintenance Costs Vacuum Interrupter Vacuum Interrupter Monitor Vacuum Interrupter Status Indicator Control Cable Connector Insulator Switch Position Indicator & Counter A simple device is attached to the vacuum interrupter during the manufacturing process. This device along with a simple fiber optic circuit monitors the interrupter to determine the prescence of vacuum. Under normal condition with vacuum present, a fiber optic circuit will conduct light. The visual indicator on the switch will be in a normal (not targeted) state. The control cabinet status indication will be normal. In the event an interrupter loses vacuum, the fiber optic circuit will be blocked. The visual indicator will turn orange to indicate loss of vacuum. The control cabinet status indication will change states. The VacStat can be set to block operation or just provide notification. The user then can schedule maintenance at an appropriate time. 7
The Power Circuit Monitor (PCM) has been specifically developed to monitor Joslyn Vacuum Switches. The PCM continuously monitors the system on the load side of the switch and provides an output signal if voltage is detected on the load side of the switch when the switch is in the open position. The PCM will thereby detect a single phasing condition caused by a loss of vacuum inside the vacuum interrupter contact module. The use of PCM s enables the user to: 1. Scheduled repair of switch 2. Reduced repair costs 3. Reduced repair time PCM Sensor Power Circuit Monitor (PCM) Control APPLICATION: Power Circuit Monitors must be used on systems for which the source is grounded. The primary of the furnace transformer must be ungrounded. It does not matter whether the transformer is connected wye or delta. Each user must decide how to use the output of the PCM. Following are three alternatives in the order suggested by Joslyn. 1. The PCM could operate an alarm or light on the operator s control panel. 2. A Joslyn Vac-Rupter switch can be made to open when the PCM operates. The Vac-Rupter Interrupter must be interlocked to prevent reclosing until authorized personnel take appropriate action. 3. The power circuit breaker protecting the furnace system can be automatically opened by the PCM output. If other loads are connected to the same breaker, the isolating switch to the furnace system with the failed vacuum contact must be opened. The breaker can then be reclosed after the isolating disconnect switch is opened. A high potential test would then be performed on the vacuum switch to locate the failed vacuum contact and replace it. Use Joslyn Factory Trained Service Technicians to increase uptime and maximize switch life. Our Factory Trained Service Technicians: Provide complete switch and control inspection Use only genuine Joslyn parts Set switch to factory standards Provide preventative maintenance services 4000 E. 116th St. Cleveland, OH 44105 Ph (216) 271-6600 Fax (216) 341-3615 www.joslynhivoltage.com Email: info@joslynhv.com C A N A D A 1560 55th Ave. Lachine, Quebec, H8T 3J5 Canada Phone: (514) 631-6145 Fax: (514) 631-1215