Dydac Controls Mayur Vihar, Delhi

We are bracketed among the distinguished Manufacturers, Suppliers and Exporters of Tubular Manifold Heaters. Our Heaters provide the best combination of physical strength, high emissivity and good thermal conductivity. We have all the in-house facilities to deliver bulk orders of these within the stipulated time frame.  Buyers can obtain these at nominal rates from us.   Description : Tubular Heaters are generally  Formed to specified sizes in Hot Runner Manifolds and Hot Plates. these heaters are mainly used for Hot Runner manifolds and Hot Plates . We offer Tubular Heaters for superior performance and life expectancy to withstand high sheath temperature and provide the best combination of physical strength, high emissivity & good thermal conductivity to heat hot runner manifolds and Hot Plates. For manufacturing manifold tubular heaters it is necessary to provide an accurate dimensional sketch showing all centre distances, bending radius and path. Formed Tubular Heaters is supplied in Chrome Nickel Steel with nominal sheath diameter of 6 mm, 6.5 mm and  8.00mm  Standard elements have a threaded terminal post which gives a cold section of approx 40mm minimum. For manufacturing manifold tubular heaters it is necessary to provide an accurate dimensional sketch showing all centre distances, bending radius and path. How To Order : Please send a detailed dimensional drawing file showing all center distances along with Total path length Wattage Voltage Required quantity   Length Tolerances :   ± 2 %Diameter Tolerence : ± 0.10 mm

Voltage : 220 V

Power Source : Electric

Since its inception, we are working under the sheds of the Dydac Controls and actively engaged in manufacturing, exporting as well as supplying of Thyristor Control Panels from Delhi, India. We make use of advanced tools and techniques for assembling these panels as per industry norms. The offered product is widely demanded in the industries for power monitoring, chart recording, etc. Contact us, for acquiring Thyristor Control Panels at the best market prices.   Details : Panel housing the Thyristor Drive controlling the power of the heater to match the thermal requirements of the system for high accuracy control. The Control Panel also contains necessary control and safety features. PID Cont. – Proportional, Derivative, Integral Three Term Indicating The Panel Housing Dydac Thyristor Power Controller for controlling the Heater Controller for accurate control of temperature or viscosity. TE – The temperature sensor can be a theromcouple, resistance thermometer with or without a transmitter head. VE – The control parameter maybe viscosity in lieu of temperature. The signal maybe milli-Volt (Thermocouple), Ohms (Resistance Thermometer) or Analogue eg 4-20mA (with transmitter head). PID Cont. Thyristor Panel : Dydac Controls offers a wide range of both standard and custom engineered SCR power panels. From 100 watts to 500 KW’s , Dydac Controls can build an SCR system to meet your needs.Dydac Controls ’ standard line of SCR power control panels are engineered with safety and ease of installation in mind. The control panels are prewired and tested on name plate voltage. Customer needs only to install incoming power wires, outgoing heater wires and thermocouple input connections. Standard panel sizes are 20, 30, 60, 100, 150, 200, 250, 350 and 400 Amps. 230 to 480VAC.Standard features include: SCR Power Controller – Single or Three Phase; Phase Angle Fired or Zero Voltage Switched NEMA 12 enclosure. Fan cooled or air conditioned Input power circuit breaker or fused disconnect with door interlock Definite purpose power contactor in front of SCR Power On-Off Button Manual reset button Power on indication (lamp) Load branch fusing with box style connections to the heaters Temperature controller. Separate over temperature controller Options include : Power monitoring (volts, amperes ) Chart recorder ( On Demand ) Heater on indicator (lamp) Alarm indicators (lamps) Annunciation flashing beacon and/or audible horn Thermocouple outlet(s) Dydac Controls uses Athena, Honeywell, Omron, Fuji, Axis, temperature controllers. Standard SCR Power Control Panels : Dydac Controls panels are engineered and built for safety, strength and reliability in real world industrial environments. The system shown has these standard features: Dydac Controls “1000 or 3000 ” Series SCR Digital temperature controller Dedicated over temperature limit Manual reset button Load branch fusing Circuit breaker w/lockout handle NEMA 12 enclosure w/fan kit Remember, you will need air inlet and outlet holes with fan cooling. Finally, plastic enclosures act as an insulator. You will most likely destroy an SCR control if you install it inside a plastic box. The only reliable way to use a plastic enclosure is to have a “thru-hole mounting” style heat sink, with the heat sink’s cooling fans outside of the box. Power Calculation : When selecting the correct sized SCR power controller, rate the SCR for at least 110% of theheater load. Heaters and power lines have tolerances that can swing on any given day or location.Single Phase : Watts÷ Volts= Amps - Example: 18,000W ÷ 240V = 75A Amps X Volts= Watts - Example: 60Ax 480V = 28,800W 3-Phase : Watts÷ Volts÷ 1.73 = Amps - Example: 18,000W ÷ 240V = 75 ÷ 1.73 = 43.35 A Amps X Volts X 1.73 = Watts - Example: 60A x 480V x 1.73 = 49,824W

Type : Control Panels

Application : Electric Panels

Color : Grey, Light White

Voltage : 110V, 220V

Power Type : AC, DC

Frequency : 50Hz, 60Hz

Driven Type : Electric

Feature : Auto Controller, Dipped In Epoxy Resin

Phase : Double Phase, Single Phase

Warranty : 1Year

Terminals : 3Terminals

Thyristor Type : Dry Filled

Buyers can get in touch with us for obtaining the Three Phase Without Neutral Thyristor Power Controllers at nominal rates. Our Power Controllers are widely demanded in various industries across the world. We are an illustrious Manufacturer, Exporter & Supplier from Delhi, India and are capable of delivering Three Phase Without Neutral Thyristor Power Controllers within the promised time.   Features : Soft start – bake out feature prevents moisture at start up Current Limit , Phase Loss Trip, Over temperature Trip Microprocessor Digital Programmable Thyristor Power Controller with Percentage Display. Program setting of Current Limit, Soft start etc by front keys Ratings : Single Phase – 25 , 34, 59, 70, 90, 150, 200 , 250, 300 Amperes Double Phase – 25 , 34, 59, 70, 90, 150, 200 , 250, 300 Amperes Three Phase Star/Delta- 35, 50, 70, 90, 150, 200, 250, 300, 350, 400 Ampers Three Phase Star with Neutral - 35, 50, 70, 90, 150, 200, 250, 300, 350, 400 Amperes . Dydac Controls Thyristor SCR Power Controllers some typical applications : Large tank heating and mechanical relay replacement. Thermoforming, textiles, industrial furnaces and ovens, extruders, kilns, chemical process heating, fast water heat. Paper and pulp drying, packaging machines, pharmaceutical processes, infrared ovens and dryers. High-temperature ovens and furnaces, kilns, glass, ceramics & hightemperature alloys. High-speed paper and ink dryers, high temperature IR heating, high temperature materials processing. Primary of transformer-coupled loads. Phase angle proportional control. No temperature or power cycling I2T Rectifier fuses standard Isolated SCR's Integrated thermal/mechanical design saves panel space Voltage protection - MOV capacitance 10 to 400 Ampere current ratings. Other Ratings Over 400 Amps Possible. Easy to install, test, service The Dydac Thyristor Power Controller is a heavy duty, fully Digital or Analog one, two or three phase power control unit for controlling the voltage applied to loads such as heating elements, thus, allowing temperature control while eliminating contactor switching and over/under heating. The first in a series of Digital or Analog Thyristor ( SCR ) Power Controllers incorporating protection functions. Built in switching methods are : Phase Control Firing Zero Crossing Firing Range : 15 A - 400 A , 220-1200VAdvantages at a glance : Fully digital Thyristor Analog Thyristor Phase Control and Zero Crossing Current: 15 – 400 A (consult us when higher ratings are needed) Voltage: 230- 500 V 50/60Hz Cooling Method: Forced air Ambient. Temp: 0 - 50°C Continuous Duty One, Two or Three controlled phases C.T.'s Input, 4-20mA or 0-20mA, 0-10VDC Digital display LEDs : PLT Over Current Over Temperature Alarm Trip Connection types : Single Phase Double Phase Three Phase Star or Delta Connection Three Phase Star with Neutral Protection functions : Under & Over current Phase loss * Shorted SCR Heat sink over temperature Trip & Alarm Internal failure The SCR control can deliver electrical power to heaters in several ways - phase angle fired, zero voltage switched and on/off control. Power Calculation : When selecting the correct sized SCR power controller, rate the SCR for at least 110% of the heater load. Heaters and power lines have tolerances that can swing on any given day or location.Single Phase : Watts÷ Volts÷1.73 = Amps - Example: 18,000W ÷ 415V÷1.73 = 75A Amps X Volts÷1.73 = Watts Phase Angle Fired : These controls proportionally turn on a percentage of each power line half cycle. This gives smooth, infinitely variable application of power to the heaters. Imagine a light dimmer and how it provides power to a light bulb. This method will provide the most precise control of heaters. Phase angle fired SCR’s will respond the fastest to load change and provide maximum heater life. It is the most precise method of control. Phase angle firing can increase heater life up to seven times depending on heater type. Phase angle firing also allows options such as soft start, voltage limit and current limit. These options are not available with any other means of control.Equipment manufacturers and maintenance engineers need a reliable, flexible approach to controlling electric-heating processes in today’s competitive, cost-conscious, industrial environment. And making the right choices up front is vitally important. Let us help you Understand SCR Power Controls , compare Power Control Methods to make the right selection, and determine the type of Electrical enclosure you need.Understanding SCR Power Controls : When selecting SCR Power Controls it is important to have a basic understanding of how SCRs work. This will help you select the right SCR for your application.How SCR Power Controls Work : A silicon controlled rectifier (SCR) is a solid state switching device which can provide fast, infinitely variable proportional control of electric power. Not only does this give maximum control of your heat process, but it can extend heater life many times over other control methods. Since the SCR is solid state, it can cycle on and off over a billion times, if properly used.The advantages of SCR Controls over other temperature control methods : Improved response time. Closer process control. Extended heater life. Reduced maintenance costs. Silent operation. No arcing and sparking. Reduced peak power consumption. Remember, a heating element is made of wire in most cases. If you use a mechanical relay to turn on your heater, it will cycle on or off within 30 seconds or longer. The heater will expand and contract, getting more and more brittle each time. This is called thermal shock. Temperature overshoot may also occur. Relays also arc, spark and will burn out on a regular basis. Mercury displacement relays can cycle from 3-15 seconds. While it controls better than a mechanical contractor, overshoot and thermal shock will still occur. If cycled too fast, Mercury relays can overheat and explode causing Haz-Mat problems   Description : Comparing Different Methods of Power Control : There are several methods commonly used to control power to electric heaters. Although some may seem “cheap and easy,” the total costs are not always considered. Mechanical Relays/ Contractors : The up front cost for a simple relay is low on low power levels. As the power level goes up, the price rises. Since the mechanical relays will get dirty, arc and burn out, the relay has to be replaced every so many cycles. The labor cost associated with this is often overlooked. Due to the slow cycle time inherent for mechanical relays (30 seconds minimum) control is poor, heated process may be damaged and heater life is shortened due to thermal shock. Mercury Displacement Relays : (MDR) The up front cost of a mercury displacement relay, or MDR, is low at low power. The MDR can cycle faster than a mechanical relay, and will not burn out as quickly. MDR’s do have to be mounted in one direction. However, the MDR will explode if overheated due to cycling too fast, or if overpowered. This results in a Haz-Mat problem. Control is still poor compared with solid state devices. The heater is still receiving full line voltage for several seconds at a time. Solid State Relays : (SSR) The costs of low power Solid State Relays (SSRs), is also low. However, there are several cost factors forgotten about with SSRs. Common to all solid state devices, they generate heat and have to have heat sinks. Also, SSRs generate more heat than SCRs due to their packaging, and come without lugs that make a solid electrical connection for higher power levels. The MOVs and fuses needed for protection against electrical shorts and spikes have to be customer installed. Again, this is a hidden cost. Finally, when looking at the SSR data, you must alwaysDerate the Device. Manufacturers of SSRs have derating curves published in their catalogs. However, please note that all SSRs are rated for the name plate power rating at 25ºC/77ºF ambient temperature. So a 50 Amp SSR is not good for 50 Amps if the temperature in the enclosure or work area is above 25ºC/77ºF (how hot is your facility in July?). The single surge current and voltage spike ratings are not as strong as an SCR. The SSR can cycle once a second and deliver better performance to both process and heaters than mechanical means. However, SSRs can only turn cycles on or off. Silicon Controlled Rectifiers : (SCR) The costs of Silicon Controlled Rectifier (SCR) Controls, is higher at low power, but level out with other methods at mid to high power. All Dydac SCRs come equipped with proper heat sinks, semi-conductor fuses and power lugs installed as an integrated package. With standard MOVs and DV/DT protection for line noise and voltage spikes, an SCR control can operate for decades. There is no routine maintenance to carry out. The level of control that can be achieved with a SCR is unattainable with any other devices. Phase angle firing and zero voltage switched control offers 0.08 second response times on 60Hz power lines. Heater life can be extended by 7 times. Power to heaters is infinitely variable. Soft Start, Current Limit and Voltage Limit Options give advantages for controlling heaters. Soft Start allows the use of high inrush heaters. Current Limit gives control of high temperature elements for furnaces. Voltage Limit prevents temperature overshoot and extends heater life. Peak power is reduced, saving operators utility costs. Protecting Your SCR Controls from Failure : Heat is the main enemy associated with SCR Control Failure. In fact, heat is the main enemy of all solid state devices. Almost all semiconductors, including transistors, IC/s and thyristors (SCRs and TRIACs) will be destroyed at an internal junction temperature of 125ºC. Diodes can take a higher internal junction temperature (130-200ºC). This is one reason Dydac Controls uses back to back SCR and SCR-Diode combinations whenever possible. Heat is generated by voltage drops across a power device (SCR/TRIAC). This drop can be anywhere between 1 and 2 volts depending on the device. The more current (amps) put through the device, the higher the watts the device will dissipate in the form of heat. This heat must be removed or the device will fail. All Dydac SCR Controls are designed to run at full rated amperage at 50ºC / 122ºF ambient.Remember, you will need air inlet and outlet holes with fan cooling. Finally, plastic enclosures act as an insulator. You will most likely destroy an SCR control if you install it inside a plastic box. The only reliable way to use a plastic enclosure is to have a “thru-hole mounting” style heat sink, with the heat sink’s cooling fans outside of the box.

Type : Power Controllers

Application : Phase Control Controlling

Weight : 0-50gm, 100-150g, 150-200gm, 200-250gm, 250-300gm

Color : Blue

Voltage : 110V, 220V, 380V

Power Type : AC, DC

Frequency : 50Hz, 60Hz, 90Hz

Feature : Auto Controller

We are offering Three Phase With Neutral Thyristor Power Controllers to our customers across the world. As a renowned Manufacturer, Exporter & Supplier from Delhi, India, we are committed in ensuring customers obtain a quality assured product. Hence, our quality auditors check the Thyristor Power Controllers on stringent quality parameters before approving for delivery.   Features : Soft start – bake out feature prevents moisture at start up Current Limit , Phase Loss Trip, Over temperature Trip Microprocessor Digital Programmable Thyristor Power Controller with Percentage Display. Program setting of Current Limit, Soft start etc by front keys Ratings : Three Phase Star with Neutral - 35, 50, 70, 90, 150, 200, 250, 300, 350, 400 Amperes .Dydac Controls Thyristor SCR Power Controllers some typical applications : Large tank heating and mechanical relay replacement. Thermoforming, textiles, industrial furnaces and ovens, extruders, kilns, chemical process heating, fast water heat. Paper and pulp drying, packaging machines, pharmaceutical processes, infrared ovens and dryers. High-temperature ovens and furnaces, kilns, glass, ceramics & hightemperature alloys. High-speed paper and ink dryers, high temperature IR heating, high temperature materials processing. Primary of transformer-coupled loads. Phase angle proportional control. No temperature or power cycling I2T Rectifier fuses standard Isolated SCR's Integrated thermal/mechanical design saves panel space Voltage protection - MOV capacitance 10 to 400 Ampere current ratings. Other Ratings Over 400 Amps Possible. Easy to install, test, service The Dydac Thyristor Power Controller is a heavy duty, fully Digital or Analog three phase power control unit for controlling the voltage applied to loads such as heating elements, thus, allowing temperature control while eliminating contactor switching and over/under heating. The first in a series of Digital or Analog Thyristor ( SCR ) Power Controllers incorporating protection functions. Built in switching methods are : Phase Control FiringAdvantages at a glance: Fully digital Thyristor Analog Thyristor Phase Control and Zero Crossing Current - 15 – 400 A (consult us when higher ratings are needed) Voltage - 230- 500 V 50/60Hz Cooling Method - Forced air Ambient. Temp - 0 - 50°C Continuous Duty One, Two or Three controlled phases C.T.'s Input, 4-20mA or 0-20mA, 0-10VDC Digital display   Range : 15 A - 400 A , 220-1200VLEDs : PLT Over Current Over Temperature Alarm Trip Connection types : Three Phase Star with NeutralProtection functions : Under & Over current Phase loss * Shorted SCR Heat sink over temperature Trip & Alarm Internal failure The SCR control can deliver electrical power to heaters in several ways: phase angle fired, zero voltage switched and on/off control.

Type : Automatic

As we have an efficient supply chain network, our company is able to fulfill bulk orders with ease and make deliveries on time. From markets of New Delhi(India) to any other, we are capable of providing our product to the buyers anywhere.

We are the main supplier of this product.

Color : Black, Grey, White

Voltage : 110V, 220V, 380V

Condition : New, Used

Application : Household, Indoor, Industrial, Outdoor

Frequency : 50Hz, 60Hz

Driven Type : Battery, Electric

Temperature Range : 0-100°C, 0-400C, 100-200°C, 200-400°C, 400-1000C, 400-800°C

Feature : Auto Controller, Durable, Heat Resistance, High Performance, Low Battery Consumption, Stable Performance

Certificate : CE Certified, ISI Certified

Current Type : AC, DC

When it is required to manage high temperature conditions, our Temperature Control Panels are the right choice. The company has a team of skilled professionals that knows the best techniques for manufacturing theses Temperature Control Panels as per predefined industry standards. We keep all the required arrangements for safe and urgent processing of Temperature Control Panels. We are renowned Manufacturer, Exporter and Supplier of Temperature Control Panels in Delhi, India.   Description : We are expert in designing Heating control Panels that are widely used for variousapplications in heat control processes. These are provided with Temperature Controllers, PID Temperature Controllers within the system. The excellent design and fabrication increases the accuracy and infallibility. Dydac brand control panels are designed and engineered to meet virtually every heating applications. Rating in size from 5KW to 500KW Control panel made from 14, 16 SWG CRCA sheet duly painted. All necessary component to be provided with the panels.Following are some of the Panels are being Manufactured by us : Temperature & Power control Panel for all Industries Heat Treatment furnace SCR control Panel Furnace Temperature control Oven Temperature Control Panel Extruder Temperature Control Panel Melt Pressure Indicator Panel Melt Pressure Control Panel

Size : Multisizes

Type : Temperature Control Panels

Color : Brown, Grey

Voltage : 110V

Application : Boiler Control

Body Material : ABS, Mild Steel

Power : 1-3kw, 3-6kw

Power Source : Electric

Phase : Double Phase

Warrenty : 5 Years

Autoamatic Grade : Fully Automatic

We are involved in offering excellent quality Sub-Zero Chiller Temperature PID Process Controllers. In order to cater the bulk and urgent requirements of the buyers, we maintain a large stock of these in our warehouse.

Type : Indicator

Known for its qualitative and excellent solutions, the company has been named among the top-notch Manufacturers, Exporters and Suppliers of Stainless Steel Pressure Transmitters based in Delhi, India. The offered product is assembled under the vigilance of experts, thus stands tall on quality parameters. Our Stainless Steel Pressure Transmitters are widely known for their compact sizes, easy configuration and cost effectiveness.   Details : 1/2% accuracy stainless wetted parts two wire 4...20mA The  Stainless Steel Pressure transmitter features compact construction, an integral amplifier, 2-wire 4-20mA output signal and extensive medium compatablility. The design of the  Stainless Steel Pressure Transmitter provides a 1/2% accurate, low cost transmitter that can operate over a wide temperature range with corrosion resistance. The  Stainless Steel Pressure Transmitter is available from stock in both standard and refrigerant models. Features: Easy to configure Two different configuration levels provide easy access to parameters. A 4-digit security code prevents unauthorized changes. Parameters can also be hidden to the user to prevent mis-configuration of the unit. Various Control algorithms These series of controllers provide several different algorithms: PID or ON/OFF control. Heat/Cool algorithms with 2 different PID sets. Dual display and Bargraph Two large 4 digits displays and one 10 LED bargraph display PV, SP and configuration parameters. Up to 8 LEDs display the status of the different Outputs (Control, Alarm, …) and also provides indication of the Auto/Manual and Programmer states. Setpoint Programming Extended Alarm capability Three different alarm outputs are available per instrument, 17 alarm modes are configurable. Autotuning capability - RS232 or RS485 ASCII protocol is optionally available. Up to 30 Controllers can be connected to a single host computer. The host computer can change the SP, monitor the PV, the output or change the configuration of the unit. Remote Setpoint capability. Manual / Automatic modes. Universal Power supply - Operates on any voltage from 85Vac to 265Vac at 50/60Hz. Large operating range - These instruments can operate from –20°C to +65°C (-4°F~149°F) Indication : Constant Value Storage System Non-volatile memory (E2PROM) Indication Accuracy - 0.5%FS Proportional Band ( P ) - 0~200% (On/Off action at P=0) Integral Time ( I ) - 0~3600 sec (PD action at I=0) Control Mode : Derivative Time ( D ) - 0~900 sec (PI action at D=0) Cycle Time - 0~150 sec (4~20mA=0, SSR=1, Relay=10) Dead Band Time - 0~1000 sec (dead time compensation) Relay Output  : Electromechanical relay - SPDT contacts 3A/240Vac Static relay driver output - Voltage Pulse, 20VDC/20mA Output : Current & Voltage outputs - 0~20mA, 4~20mA, 0~5V, 0~10V, 1~5V, 2~10V Motor Control Output - Servo motor valve control (open loop circuit) Phase angle control  - 1SSR, 3SSR, 1SCR, 3SCR Number - Up to 3 (optional) Modes :17 alarm modes available, hability to ignore the alarm the first time it occurs - Deviation high or low alarms. Deviation alarms. Alarm Band alarm. High or low alarm. End of segment alarm. Program run indication alarm. Timer alarm. Timer One timer is associated with each alarm. Retransmission Output Signal - SP, PV Type of Output - 4~20mA, 0~20mA, 0~5V, 0~10V, 1~5V, 2~10V

Material : Aluminium, Plastic

Certification : CE Certified, ISI Certified

Color : White, Black

Voltage : 110V, 220V, 380V

Frequency : 50Hz, 60Hz

Warranty : 1yr, 6months

Current Type : AC, DC

SMPS (P23-3) that we offer is finds its application in several industrial sectors. Our SMPS (P23-3) is quality-approved and is thus highly reliable.

SMPS (P22-5), offered by us, is quality-tested on several industrial parameters. Our SMPS (P22-5) is easy to operate and has long working life. Features MiniatureAC input 176 – 264V onlyProtection :SCP/OLP/OVPHigh reliablity, Low cost100% full load burn-in test

We offer premium SMPS (P21-4) that conforms to high quality standards in the industry. Our SMPS (P21-4) is highly reliable and needs low maintenance. Features MiniatureAC input 176 – 264V onlyProtection :SCP/OLP/OVPHigh reliablity, Low cost100% full load burn-in test

Our company is an esteemed Manufacturer, Exporter & Supplier of Single Phase Thyristor Power Controllers from Delhi, India. Our Power Controllers are fabricated by skilled professionals in adherence to norms set by industrial regulatory bodies. Customers can avail our range of Single Phase Thyristor Power Controllers at industry leading prices.   Features : Soft start – bake out feature prevents moisture at start up Current Limit , Phase Loss Trip, Over temperature Trip Microprocessor Digital Programmable Thyristor Power Controller with Percentage Display. Program setting of Current Limit, Soft start etc by front keys Ratings : Single Phase – 25 , 34, 59, 70, 90, 150, 200 , 250, 300 AmperesDydac Controls Thyristor SCR Power Controllers |some typical applications : Large tank heating and mechanical relay replacement. Thermoforming, textiles, industrial furnaces and ovens, extruders, kilns, chemical process heating, fast water heat. Paper and pulp drying, packaging machines, pharmaceutical processes, infrared ovens and dryers. High-temperature ovens and furnaces, kilns, glass, ceramics & high-temperature alloys. High-speed paper and ink dryers, high temperature IR heating, high temperature materials processing. Primary of transformer-coupled loads. Phase angle proportional control. No temperature or power cycling I2T Rectifier fuses standard Isolated SCR's Integrated thermal/mechanical design saves panel space Voltage protection - MOV capacitance 10 to 400 Ampere current ratings. Other Ratings Over 400 Amps Possible. Easy to install, test, service he Dydac Thyristor Power Controller is a heavy duty, fully Digital or Analog one phase power control unit for controlling the voltage applied to loads such as heating elements, thus, allowing temperature control while eliminating contactor switching and over/under heating. The first in a series of Digital or Analog Thyristor ( SCR ) Power Controllers incorporating protection functions. Built in switching methods are : Phase Control Firing Zero Crossing Firing Range : 15 A - 300 A , 220-1200VAdvantages at a glance : Fully digital Thyristor Analog Thyristor Phase Control and Zero Crossing Current - 15 – 300 A (consult us when higher ratings are needed) Voltage - 230 V 50/60Hz Cooling Method - Natural or Forced air Ambient. Temp - 0 - 50°C Continuous Duty One controlled phases C.T.'s Input, 4-20mA or 0-20mA, 0-10VDC Digital display LEDs : PLT Over Current Over Temperature Alarm Trip Connection types : Single PhaseProtection functions : Under & Over current Phase loss * Shorted SCR Heat sink over temperature Trip & Alarm Internal failure The SCR control can deliver electrical power to heaters in several ways: phase angle fired, zero voltage switched and on/off control. Power Calculation : When selecting the correct sized SCR power controller, rate the SCR for at least 110% of the heater load. Heaters and power lines have tolerances that can swing on any given day or location.Single Phase : Watts÷ Volts= Amps - Example: 18,000W ÷ 240V = 75A Amps X Volts= Watts - Example: 60Ax 480V = 28,800W

Type : Automatic

Power : 100 To 240 Vac

Application : For Accurate Heater Current Control

Our company shares glorious credentials with the eminent Manufacturers, Suppliers and Exporters of Short Wave Infrared Heaters. The Heaters offered by us are widely used in screen-printing curing on t-shirts and textiles. Bulk orders of these are processed by us as per th specific requirements of the buyers.   Infrared Heating Technology : Technology that harnesses the power of infrared radiation can provide a powerful and efficient process heat source. Infrared heaters with IR technology are well-suited to a wide variety of applications and designed to transmit large amounts of energy quickly and with high efficiency. The particular wavelength of the infrared radiation has a critical effect on the effectiveness of the heating process. Infrared heaters, which are optimally matched to the materials to be heated, can provide energy savings of up to 50% over other technologies. Infrared heaters and infrared heating technology offer significant advantages: heat exactly where it is needed, with the optimum wavelength for the product and in line with the process. Dydac offers a complete range of heaters. We offer and design radiant heating products and equipment for industrial processes using proven  infra red technology. This site offers information on our company and our complete product line including radiant heaters and heating equipment for process applications. We offer a full spectrum of high and low intensity heat for industrial processes As energy costs keep rising, you may consider efficiency measures to save energy and curb energy costs. Process heating accounts for a high percentage of energy use for most industries. Infrared heating technology, a clean and efficient heat transfer measure, is a great solution for your business. Method of Heat transmission : Conduction Convection Radiation Quartz Infrared Lamps  : Quartz infrared lamp is a high efficiency heating radiator that can heat up to 900 ¢XC and cool down in seconds. It is made of high purity of quartz tube and Tungsten wire, filling with halogen gases inside the tube to protect tungsten wire and avoid filament oxidation when working. The emitted radiation of the lamps is much more effective than other heat transmission methods such as convection or conduction heating. Objects or their surfaces can be heated up from rather distant light source even through a glass window. Instant radiation from the lamp allows fast and flexible thermal processes The color temperature of quartz infrared lamps is around 2400 to 2500¢XK. Quartz infrared lamp is a short wave IR emitter. The IR wavelength of the radiation emission is between 1 to 2 £g. The lamp can equip with all kinds of ceramic caps. The length and material of the sleeves can be custom by customer's request The quartz tube can be coated with a layer of gold or ceramic as a reflector. The use of reflectors enables accurate aiming of the radiation and raising the infrared output.  The average working life of the lamp lasts 5000 hours In addition to the standard straight tube, we also developed the quartz infrared lamps in various different shapes and sizes. Our products are available in different forms matched to different requirements. The lamps could be designed and manufactured according to the customer's request or drawing Features : All of our emitters can be coated with a layer of gold or ceramic as reflectors. The gold/ ceramic coating can concentrate the heat, increasing the effectiveness of the heat output. The emitters with coating are highly economical, converting practically all the consumed electrical power into heat For the emitters with high watt density or the surface temperature of the tube above 800¢XC , we suggest to use ceramic coating as reflector because the temperature resistance is up to 1000¢XC In addition to 180¢X (half-tube) coating, we also manufacture 270¢X coating or other customer specified degrees As energy costs keep rising, you may consider efficiency measures to save energy and curb energy costs. Process heating accounts for a high percentage of energy use for most industries. Infrared heating technology, a clean and efficient heat transfer measure, is a great solution for your business. In general, conduction and convection require heat-transmitting media such as solid, liquid, or gas. However, in the process of heat transmission by conduction and convection , most of heat is wasted. Radiation has higher thermal efficiency by directly transmitting the heat to the object without requiring any media. Infrared radiation, one of the electromagnetic radiations, travels in a straight line at the speed of light from the heat source. In the process of travel, the energy of infrared radiation is not absorbed by air and directly transmits the heat to heated substance from the heat source; therefore infrared radiation is a very efficient source of radiant energy. Infrared radiation can save the process time and reduce the energy costs when applied in the industrial use.

Type : Infrared Heaters

Material : Ceramic, Ceramic Clay, Quartz Powder

Color : White

Voltage : 110V, 220V

Automatic Grade : Manual

Power : 100Wt, 1Kw

Power Source : Electric

Feature : Low Consumption, Stable Performance

Warranty : 1year

The Axis family of microprocessor based controllersc ombine a high degree of functionality and reliability at a very low price, in 4 different formats : 1/16 DIN, 1/8 DIN, 1/ 4 DIN. They are ideal controllers for regulating temperature in a variety of applications, including : Dryers. Semiconductor packaging /testing. Plastic processing. Packaging machinery. Painting and coating. Climatic chambers.   The Axis  family satisfies low cost basic control requirements and also provides advanced features such as motor position control, phase angle power control and Set-point programming  Dual displays and Bargraph. Programmer functionality.   Two 4 digits displays and one LED  bargraph to display the PV and SP. Easy to configure.  Two different configuration levels provide easy access to parameters. A 4-digit security code preventsunauthorized changes. Parameters can be hidden to the user to prevent misconfiguration of the unit.   Various Control algorithms. PID or ON/OFF control. Universal Power supply. Operates on any line voltage from 85VAC TO 265VAC AT 50/60HZ.   1.  Specifications   Standard spec.   Model LT 400- ES  LT 600-ES   LT 700 - ES  LT 800 - ES  LT 900 - ES Dimension48X48mm96X48mm72X72mm48X96mm96X96mm   Supply voltageAC 85~265V，DC 15~50V (Option)AC 85~265V   Frequency50 / 60 HZ Power  consumptionapprox 3VAapprox 4VAapprox 3VAapprox 4VAapprox 4VAapprox 4VA   Accuracy0.2 % FS  ± 1digit   Sample time250ms TCK , J , R , S , B , E , N , T , W5Re/W26Re , PLII , U , L InputRTDPT100,JPT100,JPT50 RelaySPST typeSPDT typeSPST typeSPDT typeSPDT typeSPDT typeSPDT type   13A , 220V , electrical life:100,000 times or more (under rated load) Output Voltage pulseFor SSR drive. ON : 12 V , OFF : 0V , max load current : 20mA mA dc4~20mA, Maximum load resistance:560 Ω   Alarm 13A , 220V , electrical life:100,000 times or more (under rated load) Control algorithmPID，PI，PD，P，ON / OFF(P=0)，   PID rangeP: 0.0 ~ 200.0 %，I: 0~3600s，D: 0~900s   IsolationOutput terminals(control output , alarm , transmission) and input terminals are isolated separately   Isolated resistance10MΩ or more between input and case (ground) at DC 500 V 10MΩ or more between output and case (ground) at DC 500 V Dielectric strength1000V AC for 1 minute between input terminal and case (ground) 1500V AC for 1 minute between output terminal and case (ground) Operating Temp0~50℃      Humidity range20~90%RH Weight150g225g225g225g300g130g80g Display HeightPV:7mmPV:7mmPV:14mmPV:7mmPV:14mm SV:7mmSV:7mmSV:10mmSV:7mmSV:10mm      

Type : Pid Controllers

Material : Plastic

Feature : Durable, Light Weight, Low Power Consumption, Stable Performance

Voltage : 110V, 220V

Condition : NEW

Display Type : Digital

Rated Power : 3 VA

Power Source : Electric

Warranty : 6Month

Type : Automatic

Brand Name : Axis

We are well-reckoned as the Manufacturer, Exporter & Supplier of SCR Voltage Thyristor Power Controllers based in Delhi, India. Our Thyristor Power Controllers is noted for features such as durability, unmatched quality and reliable performance. Owing to our efficient logistics network, customers across the world can count on us for handling small or bulk orders of SCR Voltage Thyristor Power Controllers and ensuring their prompt delivery. More about SCR Voltage Thyristor Power Controllers : TM isolation three-phase voltage regulating module sets three-phase potential detection, phase shifting circuit, trigger circuit and three groups of anti-parallel one-way SCR at an organic whole, need not external synchronous transformer, through 1-5VDC, 0-10VDC 4-20mA signal, automatic control or external potentiometer manual control to achieve change conduction Angle is implemented three-phase load voltage from 0 to grid whole voltage of adjustable sleeplessly, widely used in industrial furnace, electric oven, lamplight illume, transformer primary surge in equipment such as temperature adjustment, dimmer, voltage regulating control. Main characteristic : Three-phase integration design, have power, control and fault indication, convenient installation, input and output terminal photoelectric isolation, built-in overheating protection function and the RC surge absorbing circuit, adjust the linear good strong anti-jamming capability, which can be directly and temperature is used together.

Type : Scr Power Controllers

Material : Aluminium

Application : Industrial

Certification : CE Certified

Color : Black

Voltage : 220V

Frequency : 50Hz/60Hz

Power : 0-5Kw

Driven Type : Electric

Feature : Auto Controller, Dipped In Epoxy Resin

Holding years of experience in this domain, we are crowned as a reliable Manufacturer, Exporter and Supplier of SCR Voltage Regulators sited in Delhi, India. SCR Voltage Regulators that we deal in have in-built LED configuration that displays the output. Our SCR Voltage Regulators are widely acclaimed owing to their reliable performance, shock resistance and compact sizes. Get in touch with us for availing the best deal.   Product Description : TSD/TSG series have the built-in LED which displays the output voltage. This new design has special advantages, such as high accuracy, good shock-resistant, good reliability, strong anti-interference ability, small overall dimensions, light weight, clear reading, no parallax, remote viewing results.It always applies with our another product TSG V to control temperature of bottle blowing machine or other mechanical equipments. An intelligent voltage regulator with digits independent PV and SV displays.easy to read , and good quality Intelligent voltage regulator TSD-V is of 2 rows 3 digits independent PV and SV displays.When used together with SCR,Triac voltage regulator can regulate the voltage across the load.High quality and high accuracy voltage regulatorTechnical data: Output impulse - Breadth value ≥ 3v, width ≥ 50us; S (when the load resistance is 20ohm) Voltage setting range - 0-220v(or the voltage range you want) Working environment - Temperature 0-50 degrees celsius, relative humidity does not exceed 85%, non-corrosive environment. Power supply- AC 220v+/-15%, 50Hz+/-1Hz; About 3va Size : TS-V 48x48x88mm TSA-V96*96*100mm TSD-V72*72*100mm TSG- 48*48*88

Type : Auto Voltage Regulator

Material : Aluminium, Brass

Application : Voltage Use

Color : Creamy, Black

Automatic Grade : Manual

Feature : Accurate Reading, High Performance, Lightweight Specifications, Longer Service Life

Current Type : AC, DC

We specialize in manufacturing, exporting & supplying of RTD Thermocouples from Delhi, India. The range of RTD Thermocouples we offer has garnered appreciation in both national and international markets for their innovative design, hassle free performance and requirement of less maintenance. To cater to the bulk requirement of buyers, we stock the RTD Thermocouples in our spacious warehouse, ready for dispatch at a moment’s notice.   The concept of temperature : From a physical point of view, heat is a measure of the energy contained in a body due to the irregular motion of its molecules or atoms. Just as a tennis ball possesses more energy with increasing speed, so the internal energy of a body or gas increases with increasing temperature. Temperature is a variable which together with other parameters such as mass and specific heat describes the energy content of a body. The basic measure of temperature is the degree Kelvin. At 0?K(elvin) the molecules of every body are at rest and it no longer has any thermal energy. There is therefore no possibility of negative temperatures since there cannot be a state of lower energy. In every-day use it is general practice to use the Celsius scale (previously Centigrade). Its zero is placed at the solidification point of water since this point is very simple to reproduce in practice. Now 0?C is by no means the lowest possible temperature as everyone knows from experience. By extending the Celsius scale to the lowest possible temperature where all molecular movement ceases we reach a temperature of -273.15 degrees. Man has the ability to measure temperatures through his senses within a limited range. However, he is incapable of accurate reproduction of quantitative measurements. The first forms of quantitative temperature measurement were developed at the beginning of the 17th century in Florence and depended on the expansion of alcohol. The scaling was based on the maximum summer and winter temperatures. A hundred years later the Swedish astronomer Celsius replaced this by a scale based on the melting and boiling points of water. This offered the opportunity for a thermometer to be scaled at any time and reproduce readings at a later time. Measuring temperature electrically : The measurement of temperature is important in many applications, such as, building control, food processing and the manufacture of steel and petrochemicals. These very different applications require temperature sensors of different physical construction and often different technology. In industrial and commercial applications the measurement point is frequently far away from the indication or control point. Often there is a requirement for further processing of the measurement in controllers, recorders or computers. Such applications are unsuitable for directindicating thermometers as we know them from every-day use but require devices which convert temperature into another form, an electrical signal. To provide this remote electrical signal it is common practice to employ RTD?s. thermistors and thermocouples. RTD?s  : RTD's employ the property that the electrical resistance of metals varies with temperature. They are positive temperature coefficient (PTC) sensors whose resistance increases with temperature. The main metals in use are platinum and nickel. The most widely used sensor is the 100 ohm or 1000 ohm RTD or platinum resistance thermometer. RTD?s are the most accurate sensors for industrial applications and also offer the best long-term stability. A representative value for the accuracy of a platinum resistance is +0.5 percent of the measured temperature. After one year there may be a shift of +0.05?C through aging. Platinum resistance thermometers can cover temperature ranges from -200 to 800?oC. The variation of resistance with temperature The electrical conductivity of a metal depends on the mobility of the conduction electrons. If a voltage is applied to the ends of a metal wire the electrons move to the positive pole. Faults in the crystal lattice interfere with this movement. They include foreign or missing lattice atoms, grain boundaries, and atoms on interlattice positions. Since these fault positions are independent of temperature they produce a constant resistance. With rising temperature the atoms of the metal lattice exhibit increasing oscillations about their rest positions and thereby impede the movement of the conduction electrons. Since this oscillation increases linearly with temperature, the resistance increase caused by it depends as a first approximation directly on the temperature. In industrial measurement the resistance material platinum has found general acceptance. Its advantages include chemical stability, comparatively easy fabrication (especially for wire manufacture), the possibility of obtaining it in highly pure form, and electrical properties which can be reproduced. These characteristics have made the platinum resistance sensor the mostuniversally interchangeable temperature sensor. Thermistors : Thermistors are made from certain metal oxides whose resistance decreases with increasing temperature. Because the resistance characteristic falls off with increasing temperature they are called negative temperature coefficient (NTC) sensors. Due to the nature of the basic process the number of conducting electrons increases exponentially with temperature; the characteristic therefore exhibits a strongly rising form. This pronounced non-linearity is a disadvantage of NTC resistors and limits their useful temperature span to about 100oC. They can of course be linearised by an automation computer. However, accuracy and linearity generally do not meet the requirements over larger measurement spans.Their drift under alternating temperatures is also larger than for RTD?s. Their field of use is limited to monitoring and indicating applications where the temperatures do not exceed 200OC. In such simple applications they are actually preferable to more expensive thermocouples and RTD?s in view of their low cost and the comparatively simple electronic circuitry required. In addition they can be produced in very small designs with a fast response and low thermal mass. temperature. In industrial measurement the resistance material platinum has found general acceptance. Its advantages include chemical stability, comparatively easy fabrication (especially for wire manufacture), the possibility of obtaining it in highly pure form, and electrical properties which can be reproduced. These characteristics have made the platinum resistance sensor the most universally interchangeable temperature sensor. Thermocouples : Thermocouples are based on the effect that the junction between two different metals produces a voltage which increases with temperature. Compared with resistance thermometers they offer the clear advantage of a higher upper temperature limit, up to several thousand degrees Celsius. Their long-term stability is somewhat worse (a few degrees after one year), the measuring accuracy is slightly poorer (on the average +0.75% of the measurement range). They are frequently used in ovens, furnaces, flue gas measurements and other areas with temperatures above about 250oC. The thermoelectric effect : When two metals are connected together, a thermoelectric voltage is produced due to the different binding energies of the electrons to the metal ions. This voltage depends on the metals themselves, and in addition on the temperature. In order for this thermal voltage to produce a flow of current the two metals must of course be also connected together at the other end so that a closed circuit is formed. In this way a thermal voltage is produced at the second junction. The thermoelectric effect was discovered in 1822 by Seebeck, and as early as 1828 Becquerel recommended the use of a platinum-palladium thermocouple for temperature measurement. If there is the same temperature at the two junctions there is no flow of current since the partial voltages produced at the two points cancel each other. With different temperatures at the junctions the voltages generated are different and a current flows. A thermocouple can thus only measure temperature differences. The measurement point is the junction which is exposed to the measured temperature. Thereference junction is the junction at the known temperature. Since the known temperature isusually lower than the measured temperature, the reference junction is generally called the coldjunction. In order to calculate the actual temperature at the measurement point the coldjunction temperature must be known. Older instruments used a thermostatically controlled junction box to control this cold junction temperature at a know value such as 50C. Modern instruments use a thin film RTD at the cold junction to determine its temperature and calculate the measurement point temperature. The voltage produced by the thermoelectric effect is very small and amounts to only a few microvolts per degree Celsius. Thermocouples are therefore not generally used within the range -30 to +50?C since the difference from the reference junction temperature is too small here to produce an interference-free signal. RTD Wiring : In the resistance thermometer the electrical resistance varies with temperature. For evaluating the output signal a constant current is passed through it and the voltage drop across it is measured. For this voltage drop follows Ohm's Law, V=IR. The measuring current should be selected to be as small as possible in order to avoid heating of the sensor. It can be taken that a measuring current of 1 mA does not introduce any appreciable errors. This current produces a voltage drop of 0.1 V in a Pt 100 at 0?C. This signal voltage must now be transmitted through the connecting cables to the indicating or evaluation point with a minimum of alteration. There are four different types of connecting circuit : 2-wire circuit : The connection between the thermometer and the evaluation electronics is made with a 2 conductor cable. Like any other electrical conductor this cable has an electrical resistance which is placed in series with the resistance thermometer. The two resistances are therefore added together which is interpreted by the electronics as an increased temperature. With longer distances the line resistance may amount to a few Ohms and produces an appreciable shift in the measured value. 2-wire transmitters : The problems of the 2-wire circuit as described above can be avoided without the use of a multiconductor cable by employing a 2-wire transmitter. The transmitter converts the sensor signal into a normalized current signal of 4 - 20 mA which is proportional to temperature. The supply to the transmitter is also run through the same two connections, using a base current of 4 mA. The 2-wire transmitter offers the additional advantage that the amplification of the signal greatly reduces the effects of external interference. There are two arrangements for positioning the transmitter. Since the distance for the unamplified signal should be kept as short as possible the amplifier can be mounted directly on the thermometer inside its terminal head. This optimum solution is some times impossible for constructional reasons or the consideration that the transmitter may be difficult to reach in case of a fault. In such situations a rail mount transmitter is mounted inside the control cabinet. The advantage of improved access is bought at the expense of the longer distance over which the unamplified signal has to travel. Thermistor Wiring : The resistance of thermistors is is normally several orders of magnitude greater than any lead resistance. The lead resistance therefore, has a negligible effect on the temperature reading and thermistors are almost always connected in a 2-wire configuration. Thermocouple Wiring : Unlike RTD?s and thermistors thermocouples have plus and minus legs so polarity must be observed. They can be directly connected to a local 2-wire transmitter and copper leads can be run back to the receiving instrument. If the receiving instrument is capable of accepting thermocouple inputs directly you must use the same thermocouple wire or thermocouple extension wire all the way back to the receiving instrument. Choosing the right sensor for building automation : Platinum RTD?s are the most accurate and stable sensors over a long time period. Their cost to the trade is typically about Cdn$5 more per point than thermistors. Some automation panels do not accept RTD?s directly and with these panels they must be used with temperature transmitters which add about Cdn$50. Thermistors are not quite as accurate or stable as RTD?s but they are easier to wire, cost slightly less and almost all automation panels accept them directly. Note though that thermistors are available in many different base resistances and with many different curves. You must specify the right thermistor for the panel you will use. Thermocouples are widely used in industrial applications because they work reliably at very high temperatures and are less expensive than RTD?s. In building automation they are rarely required because most temperatures measured are less than 100C. They are, however, used frequently in flue gas measurements in conjunction with 2-wire transmitters. Consultants on some jobs specify platinum RTD?s because of their improved accuracy and long term stability. If the automation panel you are using does not take RTD?s directly use them in conjunction with a 2-wire transmitter to meet the specification.

We are offering melt pressure transducer. Rt6s melt pressure transducer is ideal for general purpose melt pressure applications. The rt6s melt pressure transducer features the industry standard 3.33 mv/volt output and offers pin-to-pin compatibility with all competitors’ models utilizing the bendix style 6 pin bayonet connector. Rt6s melt pressure transducer is provided by us with a 6" rigid stem, and 1/2-20 unf thread for mounting in standard transducer mounting holes. features of our rt6s melt pressure transducer 3.33 mv/volt full scale outputaccuracy +/- 0.5%internal 80% shunt calibrationall welded all stainless steel construction

We are offering a comprehensive array of energy efficient RMT Series Athena Hot Runner Temperature Controllers. Incorporated with the latest technologies, our RMT Series Athena Hot Runner Temperature Controllers come with adjustable thermostat control knobs. They are user friendly and highly reliable.   Description : The Athena Series RMT is a microprocessor-based, dual-zone temperature controller specifically designed for runnerless molding applications effectively doubling the zone count per module without doubling the price. It features two easy-to-use operator keypads, four LED displays, and discrete indicators for heat output, alarm, degree F/C indication, manual and closed loop mode.Features :• Accepts Type J thermocouple• Bumpless auto/manual transfer• CompuStep® bake out feature prevents moisture at startup• Built-in loop break for open heater, shorted triac, reversed or shorted thermocouple• Open thermocouple break protection with jumperselectable shutdown or average power output based on operation• Preset alarms at 30oF (17oC)• SafeChange™ “hot swap” feature allows safe removal and replacement of module• CE compliant• 15 amps per zone

Type : Hot Runner Controller, Temperature Controller

Color : Mulit Colour

Application : Molding Injections

Automatic Grade : Automatic

Power : 1-3kw, 3-6kw

Driven Type : Electric

They are compact-in-design and safe. Buyers can get a wide range of RMC Series Athena Hot Runner Temperature Controllers from us at market leading prices. We are engaged in fabricating RMC Series Athena Hot Runner Temperature Controllers. Buyers can rely on to supply RMC Series Athena Hot Runner Temperature Controllers in bulk and maintain year round products availability.   Description : The Athena Series RMC brings new and highly productive benefits to injection molders looking for a modular hot runner controller that’s flexible, easy to set up, and simple to operate. Using the popular Modbus® communications protocol, the Series RMC gives users the ability to set or change all zones, either remotely from a desktop computer, or (with the ALL command) from any other individual RMC module in the mainframe.Features : Choice of three default modes for open thermocouple condition Built-in triac safety protection Accepts J or K thermocouple input(jumper selectable) SafeChangeTM “hot swap” feature allows safe removal and replacement of module CompuStep® bake out feature prevents moisture at startup Built-in loop break, short, open, and reverse thermocouple protection Boost” mode for temporary % of power output increase Ground-fault protection Adjustable setpoint limits Stores highest temperature detected Current monitor feature displays average current to load CE compliant

Type : Temperature Controller

Color : Mulit Colour

Application : Molding Injections

Automatic Grade : Automatic

Power : 1-3kw

Driven Type : Electric

Surface Finishing : Glossy, Perfect

Warranty : 1year

Volatage : 110V

Our RMB Series Athena Hot Runner Temperature Controllers are thoroughly inspected by the experts to ensure zero defects at buyer’s end. We also deal in reliable RMB Series Athena Hot Runner Temperature Controllers and make them available in bulk. Also, we ensure timely delivery.   Description : The Athena Series RMB is a microprocessor-based, single-zone temperature controller specifically designed for runnerless molding applications. It features an easy-to-use operator keypad, two LED displays, and three discrete indicators for heat-current, alarm and manual mode. Athena’s mainframes are compatible with all D-M-E Company’s G SERIES and SMART SERIES,® ITC, MCS, YUDO® and INCOE® brand mainframes.Features : Accepts Type J or Type K thermocouple input (jumper selectable) Auto-tuning, with adjustable proportional band and rate Bumpless auto/manual transfer CompuStep® bake out feature prevents moisture at startup Built-in loop break, short, open, and reverse thermocouple protection Built-in triac safety protection Ground-fault protection Preset alarms at 30o F (17oC) Jumper-selectable soft-start mode Current monitor feature displays average current to load SafeChangeTM “hot swap” feature allows safe removal and replacement of module CE compliant

Type : Temperature Controller

Color : Mulit Colour

Application : Molding Injections

Automatic Grade : Automatic

Power : 1-3kw

Driven Type : Electric

Surface Finishing : Glossy, Perfect

Warranty : 1year

Volatage : 110V, 220V

Contact us for obtaining high-performance RMA Series Athena Hot Runner Temperature Controllers at very affordable prices! The products that we offer are manufactured in conformation with the industrial standards using high-grade raw materials and advanced machines.   Description : The Athena Series RMA is a microprocessor-based, single-zone temperature controller specifically designed for runnerless molding applications. It features an easy-to-use operator keypad, two LED displays, and discrete indicators for heat output, alarm, degree F/C indication, manual, and closed loop mode.Features : Compatible with industry standards control modules and mainframes Accepts Type J thermocouple Bumpless auto/manual transfer CompuStep® bake out feature prevents moisture at startup Built-in loop break for open heater, shorted triac, reversed or shorted thermocouple Open thermocouple break protection with jumperselectable shutdown or average power output based on operation Preset alarms at 30oF (17oC) SafeChange™ “hot swap” feature allows safe removal and replacement of module CE compliant

Type : Temperature Controller

Color : Mulit Colour

Application : Molding Injections

Automatic Grade : Automatic

Power : 1-3kw

Driven Type : Electric

Surface Finishing : Glossy, Perfect

Warranty : 1year

Volatage : 110V