Watlow Solid State Relays

Sords Electric Sells Watlow Solid State Relays

Buy Watlow SSRs HERE!

The power controller is a discrete output device that regulates your system with guidance from the temperature controller. There are three common power controllers: electromechanical relays, solid-state relays and silicon-controlled rectifiers (SCRs).

Watlow solid state relays (SSR) offer many of the advantages of solid state power controllers, but at a lower cost. Watlow's extensive knowledge in power controller design led to the development of a special fast cycle input card that enables a solid state relay to operate from a standard 4-20mA instrumentation command signal. Test results show that zero-cross solid state relays in combination with the fast cycle card promote better temperature control and longer heater life than slow cycle relays. Through a time proportional cycle rate of 1⁄10 of a second, heater life will be extended.

Both low and high voltage solid state relays are available from 24 to 660VAC. All ac output models include back-to-back silicon controlled rectifiers (SCRs) for a more rugged design than the traditional triac-based solid state relay. The internal design allows it to tolerate high currents and harsh electrical environments of heavy industry. Watlow also offers a switched VDC model for dc heating applications.

Watlow provides all of the components necessary for trouble-free operation. This includes two standard convenience items: a thermal foil to ensure proper thermal transfer from the relay to the heat sink and belleville washers to ensure that the relay is mounted with sufficient pressure to enable good heat transfer. Matched semiconductor fuses and heat sinks are available to complete the power switching package.

Watlow SSR Solid State Relay

SSR-480-75A-AC1

AC input, 75 Amps

SSR-480-50A-AC1

AC input, 50 Amps

SSR-480-25A-AC1

AC input, 25 Amps

SSR-480-75A-DC1

DC input, 75 Amps

SSR-480-50A-DC1

DC input, 50 Amps

SSR-480-25A-DC1

DC input, 25 Amps

SSR-240-50A-DC1

DC input, 50 Amps

SSR-240-25A-DC1

DC input, 25 Amps

SSR-240-10A-DC1

DC input, 10 Amps

Relays may need to be deRated based on ambient temperature or how and where they are mounted. The rule of thumb is to only switch 80% of the amp rating.

For three phase use, please use 3 relays, one per phase.

UL recognized File #151484 and #E73741 CSA certified up to 600VAC, File #LR700195 VDE 60950 License # 40021401, File #1995500 up to 480VAC, CE

Buy Watlow SSRs HERE!

Sords Electric
Cleveland, Ohio
www.sordselectric.com

CARLO GAVAZZI AUTOMATION PRODUCTS

Automation Components from Carlo Gavazzi and Sords Electric

For information and/or quotes, please contact us HERE!

Automation Components by Gavazzi Products

Inductive Proximity Sensors, Capacitive Proximity Sensors, Photoelectric Sensors, Ultrasonic Sensors, Wind Sensors, Radar Sensors, Motion Sensors and Presence Vision Sensors, Conductive Level Sensors,  Limit switches, Safety Interlocks, SSR, Solid State Relays, Contactors and Overloads, Motor starters, Soft starters, VFD's, Hybrid Relays, Push Buttons, Pilot Lights, Energy, Power Supplies, Panel meters, Timers, Counters, Monitoring, Current Transformers, CTs, Controllers

Carlo Gavazzi Automation Components and Products
Sense, Switch, Control, Energy

Industries Served by Gavazzi Products

Industrial Automation

Plastics, Packaging, Material Handling, Food and Beverage

Energy Solutions

Renewable Energy and Conventional Energy

Building Automation

HVAC, Doors and entrances, Intelligent Building Solutions, 

Parking Guidance and Lifts and Elevators

Other Markets

Agriculture, Mining, Water and Waste Water, Process Industries

Industries served by Carlo Gavazzi and Sords Electric
Industrial Automation, Energy Solutions, Building Automation, 
Agricutlrure, Mining and Waste Water

For information and/or quotes, please contact us HERE!

Sords Electric
216-765-4230
www.sordselectric.com

Littelfuse SIR Solid State Relays

 SIR Littelefuse Solid State Relays from Sords Electric

The Littelfuse SIR Series is designed for industrial applications requiring rugged reliable operation. Provides an optically isolated, high capacity, solid-state output, with power switching capability up to 20A steady state, 200A inrush. Zero voltage switching SIR2 extends the life of an incandescent lamp up to 10 times. Random switching SIR1 is ideal for inductive loads. When fully insulated female terminals are used on the connection wires, the system meets the requirements for touch-proof connections.

Contact Sords Electric HERE!

Littelfuse SIR 20 Amp Solid State Relays

Operation:

The solid-state output is located between terminals 1 and 3, and is normally open or normally closed without control voltage applied to terminals 4 and 5. When control voltage is applied to terminals 4 and 5, the solid-state output opens or closes respectively. Reset: Removing control voltage resets the output. The unit is also reset if output voltage is removed.

FEATURES    >>>    BENEFITS 

Compact design measures 2 in. (50.8mm) square >>  Perfect for OEM applications where space is limited 

Totally solid state and encapsulated >>  No moving parts to arc and wear out over time and encapsulated to protect against shock, vibration and humidity 

Up to 20A, 200A inrush output rating >>  Provides direct control of heavy inductive, incandescent or resistive loads 

Switching output is optically isolated from the control input  >>  Provides the ability to interface between 2 different electrical circuits 

SIR1 models provide random switching >>  Designed for use with resistive and incandescent loads, extending lamp life up to 10 times 

SIR2 models provide zero voltage switching >> Perfect for resistive and incandescent loads

Metalized mounting surface >> Facilitates heat transfer in high current applications

Littelfuse Model Numbers

MODEL   SWITCHING   CONTROL VOLTAGE  RATING  OUTPUT FORM   OUTPUT VOLTAGE 

SIR1A1A4  Random  9 to 30VAC or DC 3A Normally open 120VAC 

SIR1A20A4  Random 9 to 30VAC or DC 20A Normally open 120VAC 

SIR1B6B4  Random 90 to 150VAC or DC 6A Normally closed 120VAC 

SIR1C20B6  Random 190 to 290VAC or DC 20A Normally closed 230VAC 

SIR2A20A4  Zero Cross 9 to 30VAC or DC 20A Normally open 120VAC 

SIR2B20A4  Zero Cross 90 to 150VAC or DC 20A Normally open 120VAC 

SIR2B20B4  Zero Cross 90 to 150VAC or DC 20A Normally closed 120VAC

Contact Sords Electric HERE!

Sords Electric
216-765-4230
www.sordselectric.com

Littelfuse SIR1...Littelfuse SIR2...Littelfuse SIR1...Littelfuse SIR2...Littelfuse SIR...1

Basics of Solid State Relays for Industry

Solid State Relays from Sords Electric

What are they and how they work in industry.

A Solid State Relay (SSR) is an electronic power switch that is controlled by a separate control input.

With no control signal to the control inputs, the output switch will be open and the output circuit will be off.  Therefore NO power will flow to the load.

When the proper control signal is applied the the control inputs, the output switch closes, completing the output circuit.  Power will FLOW to the load.

This type of control of an SSR is known as On-Off control and is similar to how a mechanical relay operates.  For example;  Mercury relays and electro-mechanical relays (contactors).

However, Solid State Relays have several advantages over mechanical relays (contactors).
These advantages include: No moving parts, no audible noise, longer life, No arcing, higher switching speeds, and shock & vibration resistance.

On-Off Solid State Relays (SSRs) come in two types, Zero Switching (Zero Cross) and Instant On.

ZERO Switching SSRs switch ON at the first zero crossing point of the AC sine wave after the application of the control voltage. And conversely the SSR switches off at the first zero crossing after control power is removed.

Random switching of instant ON SSRs switch ON instantly with the control voltage is applied to the circuit no matter the place on the sine wave where is voltage is.

Another type of switching is Peak switching where the SSR (Solid State Relay) turn on at the first PEAK of the sine wave.  Peak switching is mostly used for inductive loads and transformers.

Solid State Relays (SSR) can be used for DC switching as well. When voltage is applied the DC SSR switches on at the same instant as when the control voltage is applied to the SSR input. DC SSRs are used with resistive loads for the control of DC motors and valves.

ANALOG switching Solid State Relays are used where very tight control is needed in a process. These SSRs require an analog signal for switching. The most common signals are 4 to 20mA, 0-10 vdc, 0-5 vdc and 1-5 vdc. These SSRs are called phase angle solid stat relays and are commonly used in resistive or slightly inductive loads including lighting and HVAC loads. Soft start can be utilized with analog switching SSRs.

Another similar SSR firing method to analog switching is burst or distributed switching. This kind of switching can be used with a PID controller providing the control signal to the SSR.  A number of full cycles are switched on over a predetermined amount of time. Bust or distributed firing limits the limits the seen voltage over time to better control the load and even it out.

There are some limitations for SSRs.

SSRs generate heat so precautions must be made to keep the SSRs from over heating and failing with the use of Heat Sinks. Please review the heat sink charts for the Solid State Relay you plan to use to get the correct amount of cooling required. Some heat sinks can come with a fan. Also some SSRs come complete with a integral heat sink for plug and play application.

Fuses should be used for over current protection on SSRs.
A semiconductor fuse is best for the SSR protection. This type of fuse provides Type 2 protection coordination and has the smallest let-through (I²t) value. Due to UL 508 requirements, fast acting Class CC or J fuses are the most types used for SSRs.  These fuses only provide Type 1 protection coordination and have a high let-through (I²t) value. Circuit breakers are typically not suitable protection for Solid State Relays because f their relatively slow reaction speed.

Industrial control panels are covered by the requirements in the Standard for Industrial Control Panels, UL 508A.

Sords Electric
216-765-4230
www.sordselectric.com

Solid State Relays...Solid State Relays...Solid State Relays...Solid State Relays...Solid State Relays

Selecting Solid State Relays

Sords Electric Sells SSRs or Solid State Relays
Selecting the right relay is important for long life and application efficiency.

BUY SSRs HERE!

Here is guide to selecting and installing (SSRs) Solid State Relays.

A solid state relay or SSR is an electronic device that switches loads on or off when an external voltage or signal is applied to its control terminals. The lack of moving parts in an SSR allows it to switch much faster that electromechanical relays while avoiding the creation for electrical arcs. Solid Sate Relays are also silent, so users won't be subjected to the annoying noise associated with electromechanical relays. Furthermore, because SSRs have no moving parts or contacts that can wear out, SSRs last longer and require less maintenance than electromechanical relays.

SSRs are used in a variety of applications where quick, silent switching is advantageous. Some of these industries include: plastics/rubber, Food and beverage, processing, packaging, HVAC, semiconductor, oil/gas, transportation, conveyors, power or energy systems, printing, laboratory,kiln/oven, lighting, medical/pharmaceutical, and motion control.

How will your solid state relays be mounted/installed?

SSRs are available in a few mooting configurations. Printed circuit board (PCB) mont SSRs are limited in load size due to electric creepage and clearance distance and heat dissipation constraints.
Chassis munt SSRs are often installed to a back panel of an electrical panel but may also mount directly to a metal surface within a machine or appliance. Typically, the SSR can be mounted without a heat sink if the load is un 5 amps or under 8 amps if the mounting surface is an unpainted metal plate. To achieve the desired maximum SSR output rating, a sink sink must be properly sized and installed along with the SSR.

Engineers wo tont want to worry about properly sizing and mooting a heat sink can opt for an SSR with an integrated heat sink. These typically snap directly onto the DIN rail and are ready to wire up and use. Many of the more advanced Ssts, such as those enabling proportional control, are available in this design.  Is it also easier to obtain agency approval with SSRs integrated heat sinks, which are typically cUL listed and carry horse power ratings.

How Many Poles Need to be Switched?

When selecting a Solid State Relay, you will need to know how many polkas  (or lines of voyage) are to be switched to the load.  If your application uses a DC load, you'll need a one pole DC switching SSR. For a single-phase AC load you'll need a one pole AC switching SSR.  For a three phase AC load, you'll need to determine if you want to switch all three poles to the load or if you can get by with only switching 2 poles.  This can be achieved with a two-pole or three-pole three phase switching SSR.

What is Your Load Voltage and Current?

You will need to determine the maximum AC or DC voltage and current for your load. These variables are typically found on the specification of your motor, heater or other electrical device. For AC loads, SSRs usually switch on phase at 120 or 240 VAC or for three phase applications: 208, 240, 480 or 600 VAC.  Also factor in any potential power sags or surges in the application location when determining the minimum and maximum load voltage. DC loads are gong to be powered by DC voltage.
For motors, you will need to know the maximum horse power or kilowatt rainy at the respective voltage of your application. Check for these specs on the motor name plate.

What is the control voltage or input signal to turn the SSR on?

Next you'll need to determine another kind of voltage, the pick-up voltage that is required to energize your load as its turn off voltage (at which your load will de-energize). These are the critical control voltages for your SSR, and are usually found on your loads spec sheet. Unlike electromechanical relays or contractors which typically are controlled by a fixed voltage, SSrs have input ranges either VDC or dual VAC/VDC.
If you wish to proportionally control your load, you'll need some additional specs to choose the proper SSR. Proportional control is typically done with a 0-5, 1-5 or 0-10 VDC input or a 4-20mA control signal. Be sure to consult with a SSR manufacturer to determine the optimum out-put switching type for your load application, as it can get a bit sophisticated. Proportional output types include phase angle, distributed full cycle, burst full cycle, soft start and burst full cycle with soft start.

What is the Ambient temperature where the SSR will be installed or located?

The maximum SSR current rating depends upon the ambient temperature where is will be used and installed. Heightened temperatures can reduce the SSRs current rating.  Any SSRs are mounted on a chassis and require a heat sink t ptomaine their performance. you will need to know the ambient temperature, as well as the mounting orientation upfront, to properly ensure the right type of heat sink is specified.  Highly competent SSR manufacturers provide online tools to help match single or multiple SSRs with the appropriate heat sink. With Din rail mountable SSRs the heat sink is already integrated and the ratings are typically listed on the side of the device or data sheet for various ambient temperatures.  Keep in mind that higher ambient temperatures will require you to de-rate the current rating of the Solid State Relay.


BUY SSRs HERE!



Sords Electric
216-765-4230

MDI Mercury Relay FAQs

MDI Mercury Displacement Industries Mercury Relays

Quick FAQs and Answers

What are the advantages of Mercury relays over Solid State Relays in A.C. Resistive heating application?

Mercury Relays have a Longer trouble free life, cost effective, they have a greater immunity to voltage spikes, lower voltage drops and less heat generated by the units then Solid State Relays.

What is the difference between Resistive and General Purpose?

Resistive has a Power Factor of one and usually used in A.C. resistive heating.
General Purpose is a UL designation for loads with a Power Factor of 0.7 or higher.

What is the average life of a relay?

At full contact ratings, the relays tend to last several million operations. Running at lower voltages and currents can add greatly to the life expectancy.

 What is a Liquid Level Control?

The most common liquid level control is the sump pump float. Our floats can be used to control the levels of many other fluids too. The sump pump float is designated a normally open or pump down. We also make normally closed or pump up floats to control the addition of liquid to keep and tank from going empty.

Sords Electric

216-765-4230

Contact Sords Electric

Payne Engineering Variable Voltage Controller 11DZ-2-30

Sords Electric has in Stock the Payne Engineering 11DZ-2-30 Controller

The Payne Engineering Variable Voltage Control 11DZ-2-30 can vary wattage of a resistance heating element by changing the voltage from 0-235 vac. The unit does require a 120 lot control circuit. In short this is a heavy duty dimmer switch. 1 piece is in stock.

Payne Engineering 11DZ230 Controller

The Payne 11DZ-2-30 is a 30 amp unit and can switch 120, 208, 230, and 240 volta VAC. The unit's dimensions are 4.25 x 4 x 3.875 inches. The 11DZ weighs 2.3 pounds.

Click HERE to view all of Sords Electric's overstock items.

Included are Payne Controllers, Continental Industries SSRs, Joslyn Clark Starters and contractors, Horner HMIs and Robertshaw Gas ignition controls.

216-765-4230

www.sordselectric.com

Payne Engineering Variable Controller

Sords Electric has Payne Engineering Controllers in Stock

Payne 18TBP-1-5 and 18TBP-2-5

New and Unused Payne Variable Voltage controllers (Dimmer Switches) for electric heaters and other loads.  The Payne 18TBP-1-5 is a 120 volt variable voltage single phase controller able to handle up to 5 amps resistive. The output tis 0-118 volts. Max wattage is 600. Unit size is 2.5 x 2.5 x 2 inches.  7 units in stock as of 7/31/17
Single Phase, 120 VAC input, 0-118 VA output, 50/60Hz


New and Unused Payne Variable Voltage controllers (Dimmer Switches) for electric heaters and other loads.  The Payne 18TBP-2-5 is a 240 volt variable voltage single phase controller able to handle up to 5 amps resistive. The output tis 0-235 volts. Max wattage is 1200. Unit size is 2.5 x 2.5 x 2 inches. 1 unit is stock as of 7/31/17
Single Phase, 240 VAC input, 0-235 VA output, 50/60Hz
(Also for 208/220/230 VAC input)


Click HERE to view of of our Overstock items on Sords Electric.

Included are Payne Controllers, Continental Industries SSRs, Joslyn Clark Contactors and Starters and Robertshaw Gas Ignition controls.


216-765-4230
www.sordselectric.com

Carlo Gavazzi 2-pole Solid State Relays

Sords Electric has Carlo Gavazzi 2-Pole Solid State Relays

CARLO GAVAZZI is proud to announce the launch of their new two pole solid state relays, the RK Series. Reducing the size of components is becoming a necessity for equipment manufacturers who want to stay competitive. Carlo Gavazzi has developed the RK Series with this idea in mind, as it provides solutions that minimize space requirements without compromising performance.

The RK Series consists of solid state relay (SSR) solutions which have two poles in a single housing. It gives the option of having the two poles controlled independently or simultaneously. The latter offers a cost effective solution for economy switching of 3-phase loads. The RK Series SSRs are ideal for reliable switching of resistive loads. This new series extends the current ratings of two pole solid state relays to 75 AAC per pole with a proper heat sink and provides output screw terminals for secure connectivity of cables with ferrules, ring or fork terminals.

Carlo Gavazzi RK Series SSRs

The RK Series comes with features that provide time-saving installation and a reduction in downtime, thanks to trouble-free solid state operation, during the lifetime of the SSR. It conforms to global standards such as UL 508, CSA C22.2 and EN 60947-4-3; therefore, it can be used globally in applications/markets involving switching of resistive heating elements, i.e. Food and Beverage, Plastic and Rubber, Semiconductor, HVAC, and others.

The RK Series features include:
	Two pole switching, up to 75A per pole
	600VAC output voltage rating
	4-32VDC control
	Options for common or independent output control
	Plug or connector control terminal
	Pre-attached thermal pad
	UL recognized, CSA and VDE approved and CE marked
	UL 100,000 cycle endurance test according to UL508 For a Quote please fill out our Carlo Gavazzi Parts Form HERE 800-929-2845 or info@sordselectric.com

NEW Heat sinks for SSR's from Carlo Gavazzi

Sords Electric and Carlo Gavazzi announce new Heat Sinks.

CARLO GAVAZZI has launched an Extensive New Range of Heat Sinks for panel mount solid state relays to strengthen their position as a supplier of complete solid state switching solutions for a variety of applications for resistive and inductive switching/motor control.
Seventeen new heat sinks are added to an already extensive heat sink range. New types include a wide variety of sizes, different mounting methods such as DIN rail, panel and through-wall mounting, and include options for single or multiple SSR assemblies. Thermal resistance ranges from 4.0°C per watt to 0.12°C per watt. Proper heat sink selection has been improved by all new online tool and new detailed heat sink data sheets.

With the new Extended Range of Heat Sinks, CARLO GAVAZZI now offers different variations to fulfill the demanding needs from numerous markets in which our solid state relays are used.
Main technical features include:
Thermal resistance range of new heat sinks: 4.0 °C/W to 0.12 °C/W DIN rail, panel and through-the-wall mounting
Options for fan attachments
Heat sinks for single and multiple SSR assemblies
Optimized for use with Carlo Gavazzi RM, RS, RA, RZ and RGS Series relays.
.
Use our Carlo Gavazzi parts form HERE or call 800-929-2845

Convectronics Air Heaters

Convectronics and Sords Electric

Convectronics manufactures first class heaters, temperature sensors and precise controls. We offer a wide variety of industry standards available for “Just In-Time Delivery” and manufacturing capabilities which cover a broad spectrum of customized products for most applications. With over twenty years of knowledge and experience in temperature sensing and controls, Convectronics is able to offer you elite technical support and service along with the highest quality products. Our Technical Staff is waiting to assist you with all your design and application needs. 

CONVECTRONICS QUARTZ AIR HEATER

When you need a heat source, Convectronics’ products are designed to meet and exceed all expectations. Convectronics Air Heaters use state of the art materials and can be found throughout the world in countless industries.

• Temperature up to 1500°F
• Clean electric heat without the flame
• Compact size with rapid heat-up and cool-down
• Controllable by varying voltage, flow rate or
  temperature controls
• Excellent repeatability
• Directable heat
• Easy installation

• Repeatable • Adaptable • Stable • Reliable
• Precise • Accurate • Controllable
• Clean • Sturdy • Responsive
• Economical • Dependable
• Compact • Efficient
• Powerful

Air heaters work by continuously passing air/fluid over a heated element. This air/fluid is heated and then discharged from the heater, giving a consistent supply of reliable heat. The material being heated can either be inert gas, compressed air or air from a regenerative blower. Unfiltered gas that may contain dirt, grease, oil, oil vapors, corrosive or reactive gases along with volatile or combustible gases should never be used. It should be noted that material should always be flowing over the element before and even after power is supplied to the heater or the result may be overheating of the element and reduced life.

Optimum heater life is achieved by operating the
element within its specified performance characteristics and monitoring the element temperature. Elements operating outside their recommended limits will glow beyond the midsection of the heated length.

Best operating results will be obtained by using a thermocouple feedback temperature control and phase angle power control. When using only a voltage control extra caution should be taken. Apply voltage to the heater until the desired air temperature is obtained.

Air Heater Selection:

When selecting a heater you must first determine the power required to heat air. This can be done by using the following formula:  

Power (Kilowatts) = [(SCFM x Delta T) / 3000] x 1.2

SCFM   = Standard cubic feet per minute
Delta T = Temperature (exit) - Temperature (inlet)
                  In Degrees Fahrenheit

When selecting heaters it is important that a good control system is also selected. A good control system is critical for long heater life. Convectronics offers open-loop (manual) controls, closed-loop (feedback) controls and all the components necessary to run Convectroncs heaters.

Flameless Electric Air Heaters
Single Pass Quartz Tube Heaters

Convectronics Quartz Air Heater 001-10001
Convectronics Quartz Air Heater 001-10002
Convectronics Quartz Air Heater 001-10003
Convectronics Quartz Air Heater 001-10004
Convectronics Quartz Air Heater 001-10005
Convectronics Quartz Air Heater 001-10006
Convectronics Quartz Air Heater 001-10007
Convectronics Quartz Air Heater 001-10008
Convectronics Quartz Air Heater 001-10009
Convectronics Quartz Air Heater 001-10010

Standard Outer Casing: Quartz

* Standard Tubing Adaptors on ALL Series 001 Air Heaters have a 1/4” NPT Female Thread for use with a compression tube fitting (not supplied).
* To order an 001 Series Air Heater with a PLAIN Tubing Adaptor (NO Threads) use the suffix “T” at the end of the Part Number. This adaptor accepts a 3/8” OD Tube.

Flameless Electric Air Heaters
Metal Shell Air Heaters

Features: 
• Air temperatures up to 1400°F
• Flow rates up to 400 SCFH
• Long life
• Fast response
• Choice of five wattages up to 1250 watts

Construction:
• 1/2 ” diameter 304 stainless steel body
• Copper tee with 3/8” NPT air connection
• Epoxy sealed 2 Ft. leads
• High temperature ferrous alloy element

Convectronics Metal Sheath Air Heater 001-10209    450 watts
Convectronics Metal Sheath Air Heater 001-10210    600 watts
Convectronics Metal Sheath Air Heater 001-10211    800 watts
Convectronics Metal Sheath Air Heater 001-10212   1000 watts
Convectronics Metal Sheath Air Heater 001-10213   1250 watts

Flameless Electric Air Heaters
Triple Pass Housings/Elements

Convectronics Triple Pass 003-10026 10” HOUSING
Convectronics Triple Pass 003-10028 2000W element
Convectronics Triple Pass 003-10029 2800W element
Convectronics Triple Pass 003-10030 3600W element

Convectronics Triple Pass 003-10027 13” HOUSING
Convectronics Triple Pass 003-10031 5000W element
Convectronics Triple Pass 003-10032 6000W element

The Convectronics Power Control Module Part # 006-10062 offers infinitely variable phase control when used with resistive loads up to 25 amps. The solid state circuitry provides modified transient suppression, exceptional stability and life. An external potentiometer/switch (dial plate and knob included) is used to control output voltage. A trimming potentiometer is mounted on top of the module to adjust turn on voltage level. This device should be installed in a circuit fused at 120% rated load or 30 amps maximum.

These controls provide phase angle proportional control of our fast responding heaters. They are available in single and three-phase 240-volt configurations. Each unit comes complete with I²T Rectifier Fuses and a Voltage Limiting Adjustment.

The controls can be operated manually with the addition of the optional Manual Voltage Control, which allows one to vary voltage from zero to full voltage.

The S.C.R power control can be used with a 4-20mA temperature controller for closed loop operation.

Convectronics 006-10269  Single-Phase  60 amp, 240V SCR
Convectronics 006-10270  Three-Phase  30 amp, 240V SCR
Convectronics 006-10271  Three-Phase  60 amp, 240V SCR
Convectronics 006-10272  Manual Voltage  Control

TEMPERATURE 1/16 DIN DIGITAL TEMPERATURE CONTROLLER  #006-10273

CONVECTRONICS CONTACTOR # 006-10290


CONTACT SORDS ELECTRIC FOR YOUR QUARTZ AIR HEATER NEEDS.

Gavazzi Solid State Relays - Din Rail Mount

Sords Electric stocks Carlo Gavazzi Integrated Heatsink Solid State Relays. Carlo Gavazzi offers a comprehensive range of solid state relays (SSRs) featuring direct copper bonding technology for increased life and reliability. SSRs are used extensively in the plastics, packaging, food processing, and HVAC industries - primarily for temperature control. They are the logical replacement for mercury contactors.

Carlo Gavazzi's range includes single phase relays up to 125 amps and 3 phase relays up to 75 amps. They are available with both digital and analogue inputs (4-20 mA or 0-10 V).

20 amp Solid State Relay with DIN rail heat sink, DC input, <600 volts output ~ RJ1A60D20E

20 amp Solid State Relay with DIN rail heat sink, DC input, <600 volts output ~ RJ1A60D20U

20 amp Solid State Relay with DIN rail heat sink, AC or DC input, <600 volts output ~ RJ1A60A20E

20 amp Solid State Relay with DIN rail heat sink, AC or DC input, <600 volts output ~ RJ1A60A20U

30 amp Solid State Relay with DIN rail heat sink, DC input, <480 volts output ~ RN1A48D30

30 amp Solid State Relay with DIN rail heat sink, AC input, <480 volts output ~ RN1A48A30

30 amp Solid State Relay with DIN rail heat sink, DC input, <600 volts output ~ RJ1A60D20E

30 amp Solid State Relay with DIN rail heat sink, DC input, <600 volts output ~ RJ1A60D20U

30 amp Solid State Relay with DIN rail heat sink, AC or DC input, <600 volts output ~ RJ1A60A20E

30 amp Solid State Relay with DIN rail heat sink, AC or DC input, <600 volts output ~ RJ1A60A20U

50 amp Solid State Relay with DIN rail heat sink, DC input, <480 volts output ~ RN1A48D50

50 amp Solid State Relay with DIN rail heat sink, AC input, <480 volts output ~ RN1A48A50

63 amp Solid State Relay with DIN rail heat sink, DC input, <480 volts output ~ RN1A48D63

63 amp Solid State Relay with DIN rail heat sink, AC input, <480 volts output ~ RN1A48A63

Two Pole30 amp Solid State Relay with DIN rail heat sink, DC input, <480 volts output ~ RN2A48D30

Two Pole 30 amp Solid State Relay with DIN rail heat sink, AC input, <480 volts output ~ RN2A48A30

Two Pole 50 amp Solid State Relay with DIN rail heat sink, DC input, <480 volts output ~ RN2A48D50

Two Pole 50 amp Solid State Relay with DIN rail heat sink, AC or DC input, <480 volts output ~ RN2A48A50

Three Phase 15 amp Solid State Relay with DIN rail heat sink, 5-32 DC input, <400 volts output ~ RN3A40A15

Three Phase 15 amp Solid State Relay with DIN rail heat sink, 5-32 DC input, <480 volts output ~ RN3A48A15

Three Phase 30 amp Solid State Relay with DIN rail heat sink, DC input, <400 volts output ~ RN3A40A30

Three Phase 30 amp Solid State Relay with DIN rail heat sink, DC input, <480 volts output ~ RN3A48A30

Call Sords Electric for your solid state relay needs and electric heater requirements.

800-929-2845