Mercury Relays (Mercury Contactors) are all designed and built to meet the most exacting demands of industry. They have won their high place in the electrical field by doing the tough and tricky jobs that ordinary equipment could at best do in an uncertain manner (especially resistive heating). They have proved their ability to stand up under the most adverse conditions of temperature, dust and moisture, in all types of applications. All the care required for the manufacture of high-grade instruments is used in the manufacture of the switches. All switch parts are specially cleaned, and contamination is avoided by use of tweezers, gloves, etc., when making assemblies.
Mercury Relays (Mercury Contactors) are hermetically sealed with high quality glass to metal seals.
The stainless steel tube is totally encapsulated in high grade UL approved epoxy to prevent moisture damage and voltage breakdown through the protective coating.
The coils are wound on compact nylon bobbins and molded onto the metal tube to provide minimum power loss. This allows for low coil power required to actuate the contactor. This also enables the units to handle high loads with minimum de-rating due to higher ambient temperatures.
Inert gases internally prevent excessive arcing between the mercury and the electrodes which enables the unit to function for millions of cycles with very low contact resistance, and minimum deterioration of the internal parts.
Available in all standard coil voltages, in single pole, two pole and three pole arrangements. Other coil voltages available upon request.
In multiple pole units each tube is actuated by its own coil. This eliminates pull-in variation between contact tubes, assuring consistent switching.
If you are wanting to return mercury relays, please refer to relay return policy and SDS here.
Relay Part Number Values
2 Pole, 35 AMP, NO (Normally Open Relay), 120A 120 VAC Coil, T (Top Contactor Terminals), S (Screw Terminals in place of Compression Terminals), H (Hydrogen Back-Fill gas for inductive loads), X (Hazardous Locations), -30 (-11 MOV on Coil, -17 DIN Rail Mounting & -18 Steel Strap)
- AC Coil Voltage
- or DA Special "A" Backplate or Bracket
- Snap Trac Backplate or Bracket
- Shrink Wrap on Coil Connectors
- DC Coil Voltage
- Fly-Back Diode
- Fast-On Male Tabs on Coil Terminals
- Compression Terminals on 30 AMP Relays
- Hydrogen Gas for Inductive Loads
- Leads on Load Terminals
- Motor Load Ratings
- Narrow Backplate or Bracket (NRM Mount)
- Rectified Coil
- Top Contactor Load Terminal
- Screws for Top Terminals (In place of Compression Terminals)
- Universal Backplate or Bracket
- Snap Action Backplate or Bracket
- Hazardous Locations
- Finger Safe
- In-Series Contactors
- In-Series Coils
- Large (1-8 AWG) Compression Terminals
- or -6A High Voltage Contactors
- No Coil Connectors (For Individual Control)
- Mercury to Mercury Contactor
- T-Top w/ Hex Socket Set Screw
- MOV on Coil
- LED for Coil Indicator
- MOV & Steel Strap (-11 & -18)
- Suppression Board w/ LED on Coil
- Top Stud for 35-AMP & 60-AMP Contactors (1/4-20 Threads)
- Top & Bottom Stud for 35-AMP & 60-AMP Contactors (1/4-20 Threads)
- DIN Rail Mounting
- Steel Strap
- NRM Type Bracket/Backplate Mount
- DIN Rail Mount & Steel Strap (-17 & -18)
- 30-AMP Contactor w/ Removable Coil
- Series Coil & Steel Strap (-4 & -18)
- High Voltage Contactor & DIN Rail Mount (-6 or -6A & -17)
- MOV on Coil, DIN Rail Mont & Steel Strap (-11, -17 & -18)
- DIN Rail Mount & NRM Type Bracket/Backplate Mount (-17 & -19)
- Large (1-8 AWG) Compression Terminals & Steel Strap (-5 & -18)
- T-Top w/ Hex Socket Set Screw & Steel Strap (-10 & -18)
- Large (1-8 AWG) Compression Terminals, MOV on Coil & Steel Strap (-5, -11 & -18)
- MOV on Coil & DIN Rail Mont (-11 & -17)
- No Coil Connectors (For Individual Control) & Steel Strap (-8 & -18)
MERCURY TO METAL CONTACTOR
The mercury relays (mercury contactors) load terminals are isolated from each other by the glass in the hermetic seal. "The plunger assembly", which includes the ceramic insulator, the magnetic sleeve and related parts, floats on the mercury pool. When the coil is powered causing a magnetic field, the plunger assembly is pulled down into the mercury pool which is in turn displaced and moved up to make contact with the electrode, closing the circuit between the top and bottom load terminal, which is connected to the stainless steel can.
To make the unit function as a "Hybrid" time delay, we add a solid state circuit to the coil to delay the power to the coil.
For constant duty applications, a return spring is used in place of the buffer spring.
Contact the factory.
MERCURY TO MERCURY CONTACTORS
Time Delay Relays Are available with delays of up to 15 seconds on normally open units, and 4 seconds on normally closed units. The timing limitation depends on the contact action required. A time delay function is accomplished in this unit by sizing a hole in the time disc that will control the rate of the mercury flow. This controls the time it will take from the instant the coil is powered until the mercury pools make contact with each other, closing the circuit between the load terminals. Typical contact ratings 10 AMP @ 120 VAC. Pilot duty rating 720 VA. Common coil voltages are available. Standard load terminals are compression type. Coil terminals use #6 binding head screws.
- ADVANTAGES OVER ELECTROMECHANICAL AND SOLID STATE RELAYS
- Superior Performance and Reliability
- Long life
- Compact Size
- Low, Predictable Contact Resistance
- Reduced RFI for Improved Interface Capability
- Handles a Variety of Loads
- Increases design flexibility
- Rapid On-Off Cycling Capability
- Mercury quickly dissipates contact heat
- Low Coil Power Requirements
- Minimal Derating Due to Higher Ambient Temperatures
- Quiet Action
- DESIGN and CONSTRUCTION
- Contacts are within a hermetically sealed steel body
- Impervious to adverse conditions
- No external arcing
- Arcing is in a gaseous atmosphere
- Quenches the arc
- Extends relay life
- Only one moving part (the plunger)
- No buttons to pit, weld or burn out
- One coil for each set of contacts
- Assures consistent switching
- Minimizes pull-in variation between contacts
- Epoxy encapsulated
- Moisture resistant
- High dielectric strength
- Permanently fixes contacts to coil; eliminating possible misalignment
- Helps dissipate heat and noise
- Rugged (impact resistant)
- Reduction of Operational and Maintenance costs
- Increases Utilization and Productivity of Equipment
- By reducing down-time
- Installation and service is a routine operation
- Simple to install
- No sophisticated equipment is required
- Easy to trouble-shoot
Typical Applications For Mercury Relays (Mercury Contactors)
High Intensity Lamps
Lighting Test Panels
Mercury Vapor Lamps
Sodium Vapor Lamps
INDUSTRY EQUIPMENT (HEATERS)
Automatic Door Closers
Blue Print Machines
Computer Power Supplies
Dusty, Oily Locations
Dry Cleaning Equipment
Energy Management Systems
Farm Incubators and Brooders
High Cycle Rate Applications
Low Voltage Switching
X-Ray Machine Controls
Capacitor Discharge Systems
Chemical Tank Heaters
Heat Sealing Machines
Injection Molding Machines
Roof Top Heating
"S" 100 AMP Mercury Relays (Mercury Contactors)
- On Normally Open Units:
- Operate Time: 50 milliseconds
- Release Time: 80 milliseconds
- On Normally Closed Units:
- Operate Time: 45 milliseconds
- Release Time: 60 milliseconds
- Contact Resistance: .001 ohm *
- Dielectric Withstand: 2500 Vac RMS
- Longevity: Millions of Cycles
- Temperature Range: -35 degrees C to 85 degrees C
- Coil Terminals: #6 Binding Head Screws Torque to 7 IN-LB
- Load Terminals: Pressure Connectors. Standard Accepts 1 to 8 AWG Torque to 45 IN-LB
- Ratings: Derate over 480 VAC Res.
- Exceeds 5000 VAC RMS across the contacts
* After Cycling Under Load
High Voltage Relays High Voltage Contactors
For UV Curing, and Various High Voltage applications. Available in Single Pole, Normally Open, and Normally Closed Units. The coils utilize 6-32 Wire Binding Screws, and the Contacts use Compression type terminals for 4 thru 14 AWG wire.
- 10 Amps @ 3,500 VAC
- 15 Amps @ 2,500 VAC
- AC Inductive - Power Factor .7 or Greater
- Exceeds 5000 VAC RMS across the contacts
Proper Fusing is Required
While MDIs contactors handle high inrush, such as lamp loads, very well, mercury contactors are susceptible to damage by short circuit currents, and should be fused to minimize short circuit fault currents. Fast acting UL class RK-1 and class J fuses and semiconductor I²t fuses more effectively protect relays than other fuses. These are low-peak fuses designed to limit short circuit currents. Regardless, when there is a short circuit, relay operations should be closely monitored afterward because of the possibility of concealed damage that could cause the relays to behave inconsistently.
- Mercury Displacement relays must mount vertically +/- 10 degrees.
- Control line can be protected with metal oxide varistor (MOV). Use suffix -11.
- Disconnect power before installing or servicing. Observe all electrical and safety codes and ordinances such as National Electrical Code (NEC) and the Occupational Safety and Health Act (OSHA).