Another variety that we bring forth is widely used in automation applications and incorporates latest technological advancements. Made as per the industry standards, our AC Frequency Drives are used in different industries for various applications. Moreover, we hold expertise in providing AC Frequency Drives in customized options, at feasible prices. We are renowned Manufacturer and Supplier of AC Frequency Drives in India.

 

Description :

• We bring forth AC Frequency Drives that cover every automation application need in the industrial plant. These AC Frequency Drives incorporate the latest technological advancements in AC motor speed control, made possible by experience and dedication to quality in design and manufacturing. The adjustable frequency drives offer the greatest selection of size and performance available, with power ranges from fractional HP to 1500 HP. AC Variable Frequency Drives that has gained wide appreciation for international quality standards. Designed with the assistance of our advanced technology, the frequency drive efficiently generates strong torque at a low speed. The drive adjusts output voltage and slip frequency compensation timely to make motor work at the highest efficiency. The Frequency Drive s provides increased efficiency and product life for today's machinery applications. These easy-to-install adjustable frequency drives also feature a compact design to fit into tight spaces. These are designed to provide adjustable speed control of Single phase or three-phase motors. The size and simplicity of these drives make them an ideal choice for installations where space is a primary concern.
• The AC Frequency Drive ensures reliable and accurate load handling. Operating on real current vector control technology, it efficiently generates strong torque at a low speed. It has a built-in PID controller with sleep, wake up functions to maintain a constant pressure, flow and oil level. It has gained wide appreciation for automatically keeping the output voltage stable, even when the input voltage fluctuates.

Features  :

• Power range  -  1.5-1500KW
• Input voltage range  -  220V±20%, 380±20%, 415± 15%
• Removable dual LED display keypad  -  East for monitoring and parameters copy
• Reliable, accurate load handling
• Compact size design  -  All power size are typically 20% smaller
• Built-in smart logic controller
• Real current vector control technology  -  Generates strong torque at a low speed
• Static and rotation motor parameter auto tune
• Cooling fan On/Off selectable  -  Reduce energy consumption of inverter
• Built-in PID controller with sleep/wake up AC frequency drive functions to maintain a constant pressure, flow and oil level
• Automatic energy saving  -  Adjust output voltage and slip frequency compensation timely to make motor work at the highest efficiency
• Automatic voltage regulation  -  Automatically keep the output voltage stable when input voltage fluctuating
• RS485 communication supports standard Modbus - RTU protocol
• Support remote operation up to 1000m distance

Application Areas :

• CNG machine tools
• Extrusion
• Cranes
• Textile
• Printing & dyeing
• Chemical fibers
• Paper making
• Wire drawing
• Manipulator
• Solid warehouse
• Oxygen making machine
• Air compressor
• Ceramic machine
• Industrial washing machine

Reliable performance, precision accuracy and longevity are some of the prime factors, which make our Linear Scale Transducer Sensor high in demand among the global buyers. We are tagged as a reliable Manufacturer, Exporter and Supplier of Linear Scale Transducer Sensor sited in Delhi, India. Made from the finest quality material and cutting-edge technology, our Linear Scale Transducer Sensors are able to withstand extreme conditions.

 

Features :

• The transducer has been improved in order to guarantee greater reliability under all conditions
• A sturdier structure makes the Transducer even stronger for applications with heavy vibration
• Installation is made simpler by the absence of electrical signal variation in output, outside the Theoretical Electrical Stroke
• The new grooves provide an excellent alternative to the usual system of fastening with brackets
• Ideal for applications on plastic injection presses, vertical presses, and on many other processing
• machines
• This transducer is designed to guarantee a high protection level (IP67) in applications under harsh conditions and outdoors, where it may be necessary to work in the direct presence of dust, dirt, or liquids (not in prolonged immersion)
• The grooves on the profile provide an excellent alternative to the usual system of fastening with
• brackets
• Ideal for applications on plastic injection presses with installation at points that are highly exposed to lubricants
• Also indicated for processing machines on which the transducer cannot be protected by guards.]

• This transducer is designed to guarantee a high protection level (IP67) in applications under harsh conditions and outdoors, where it may be necessary to work in the direct presence of dust, dirt, or liquids (not in prolonged immersion)
• The grooves on the profile provide an excellent alternative to the usual system of fastening with brackets
• Ideal for applications on plastic injection presses with installation at points that are highly exposed to lubricants

• Also indicated for processing machines on which the transducer cannot be protected by guards

• The transducer has been improved in order to guarantee greater reliability under all conditions

• A sturdier structure makes the LT series even stronger for applications with heavy vibration
• Installation is made simpler by the absence of electrical signal variation in output, outside the Theoretical Electrical Stroke
• The new grooves provide an excellent alternative to the usual system of fastening with brackets
• Ideal for applications on plastic injection presses, vertical presses, and on many other processing machines
• The transducer has been improved in order to guarantee greater reliability under all conditions
• Mechanical linkage using joint with take up of play, M5 thread
• Installation is made simpler by the absence of electrical signal variation in output, outside the Theoretical Electrical Stroke
• The new grooves provide an excellent alternative to the usual system of fastening with brackets
• Ideal for applications on plastic injection presses, vertical presses, and on many other processing machines

• Grade of protection IP40

Made from the qualitative basic materials and cutting edge technology, our Electronic Digital Counters always remain high in demand. We are prominent Manufacturer, Exporter and Supplier of Electronic Digital Counter based in Delhi, India. Our offered Electronic Digital Counters are also available in different specifications, at the most reasonable prices. With us stay assured for timely deliveries.

Over the years, we have emerged as a one-stop destination, where buyers can get a range of Humidity Indicator & Controllers. We are prime Manufacturer, Exporter and Supplier of Humidity Indicator & Controllers in Delhi, India. The company has a team of quality controllers that supervises the entire process right from the selection of required material to the final delivery. Rely on us and place orders now!

 

Details :

• Humidity Indicators and Humidity + Temperature with Relay or SSR Output On Request
• 3 wire Capacitive sensor10-95 RH
• Size 72x72x110 36x72x74 96X96X70
• Humidity - Temperature Proportional/ On-off action
• Hysteresis - 0 to 20% RH :0 to 20
• Offset - 19 to+19% RH :-19 to+19°C Relay action : Humidity / Dehumidity Heat or cool
• Output - Single change over relay for each ( 5 Amp @ 230 VAC) SSR O/P on request

Another variety that we bring forth to our patrons is Programmable Digital Timer. As a quality driven institution, we are manufacturing, exporting and supplying of Programmable Digital Timer from Delhi, India. The product range is assembled at our well-equipped in-house facility and widely known owing to its memory retention feature. Our Programmable Digital Timers are available in different technical specifications, at nominal rates.

 

Multirange Series : SIZES  96X96X70   72X72X110    48x96x110    36x72x74 
Cyclic Timers

• Hr/Min/Sec - 99/59/59
• Hr/Min/Sec - 99/59/59
• Delayed ON / OFF CYCLIC

Time Totalizers : 

• 6 Digit time totaliser
• User selectable least count
• 10 years memory retention
• Accuracy - 0.05%

Sensing by  :

• Potential free contacts
• PNP Proximity sensor
• Supply voltage
• Setting via front keys
• Configuration lock

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 100^oC. 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 200^OC. 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 250^oC.

• 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.

By keeping eyes on the leading market requirements, we at Dydac Controls, engrossed in manufacturing, exporting and supplying of Melt Pressure Indicator from Delhi, India. Made from the best quality raw components, our Melt Pressure Indicators are used to display pressure, temperature, etc. Over the years, we have gained immense expertise in handling bulk orders. Buyers are free to place orders for acquiring our Melt Pressure Indicators at fair prices.

 

Details :

• Display pressure, temperature
• Optional second input/output for cost-effective single instrument
• View display information locally or remotely by optional Modbus RTU
• Bar graph display for quick-glance scaled value
• Two alarm relay output, third alarm optional
• Analog retransmission of process variable allows signal to be sent to other devices
• Configure locally or remotely by optional Modbus RTU
• Digital security code prevents unauthorized use
• IP65/NEMA 4X rated for harsh environments

Ideal For :

• Synthetic Fibres
• Photographic film
• Plastics - Solid extrusion
• Wire coating
• Multi-layer extrusion

Extrusion Melt Pressure Controllers :

• Melt pressure control
• Suitable for 4 or 6 wire transducers
• Pre-screen pressure monitor and alarm
• Pressure alarms
• Simple calibration
• Fieldbus communication options
• The Controllers are fully programmable melt pressure controller, suitable for precision pressure control in the plastic extrusion industries.
• In its basic format the Controller  standard hardware includes an input for melt pressure measurement, an analog output to drive the extruder screw and alarms to detect high and low pressure conditions.  Additionally, a second pressure input can be connected providing the facility to put a differential pressure alarm across the screen.  Automatic transducer calibration procedures and 5Vdc or 10Vdc transducer power supplies are provided for both inputs

SANREX TG70AA60 are isolated mould triac suitable for wide range of applications like

copier, microwave oven, solid state switch, motor control, light control and heater

control.

ITAV 70A

High surge capability 600A

Isolated NountingAC650V

Tab Terminals

Symbol	Item	Ratings		Unit
		TG70AA40	TG70AA60
VDRM	RepetitivePeakOff-StateVoltage	400	600	V
VDSM	Non-RepetitivePeakOff-StateVoltage	450	650	V

Symbol	Item	Conditions	Ratings	Unit
ITRMS	R.M.S.On-StateCurrent	Tc58	70	A
ITSM	SurgeOn-StateCurrent	Onecycle, 50Hz/60Hz, peak, non-repetitive	1080/1200	A
I2t	I2t		6000	A2S
PGM	PeakGatePowerDissipation		10	W
PGAV	AverageGatePowerDissipation		1	W
IGM	PeakGateCurrent		3	A
VGM	PeakGateVoltage		10	V
di/dt	CriticalRateofRiseofOn-StateCurrent	IG100mATj25VD12VDRMdIG/dt1A/s	50	A/s
Tj	OperatingJunctionTemperature		40to125
Tstg	StorageTemperature		40to125
VISO	IsolationBreakdownVoltageR.M.S.	A.C.1minute	2500	V
	MountingTorqueMountingM4	RecommendedValue1.0-1.410-14	1.515	Nm kgfB
	Mass			g

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 output
• accuracy +/- 0.5%
• internal 80% shunt calibration
• all welded all stainless steel construction

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°F149°F)

Indication :

• Constant Value Storage System
• Non-volatile memory (E2PROM)
• Indication Accuracy - 0.5%FS
• Proportional Band ( P ) - 0200% (On/Off action at P=0)
• Integral Time ( I ) - 03600 sec (PD action at I=0)

Control Mode :

• Derivative Time ( D ) - 0900 sec (PI action at D=0)
• Cycle Time - 0150 sec (420mA=0, SSR=1, Relay=10)
• Dead Band Time - 01000 sec (dead time compensation)

Relay Output  :

• Electromechanical relay - SPDT contacts 3A/240Vac
• Static relay driver output - Voltage Pulse, 20VDC/20mA

Output :

• Current & Voltage outputs - 020mA, 420mA, 05V, 010V, 15V, 210V
• 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 - 420mA, 020mA, 05V, 010V, 15V, 210V

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

We are counted among the leading names for manufacturing, exporting and supplying of Compensating Cables from Delhi, India. Our quality controllers ensure the quality of raw material prior to manufacturing Compensating Cables, thus our products always stand tall on all the quality parameters. Compensating Cables, that we offer, are used in various industries for different applications. Approach us, for availing Compensating Cables at pocket friendly rates.

Having years of experience, we are counted among the leading names for manufacturing, exporting and supplying of APFC Panels from Delhi, India. The entire product range is assembled by utilizing qualitative raw material in adherence with industry standards. Our offered product is widely used in different industries for automatic correction of fluctuating power factor. Buyers can acquire APFC Panels in different specifications, at cost effective prices.

 

Description :

• We design and manufacture automatic power factor correction panel. (contactor switching) Power Factor is ratio which represents actual power dissipated in A.C. circuit to the product of R.M.S. voltage and current. The phase difference between voltage and current is caused by reactance in circuit and represents power that does no useful work.
• Power factor is low in industrial settings where most of the plant energy is used to power electric motors. It is lowest when the induction motors tend to be oversized and under-loaded. A lagging (less than 1.0) power factor causes some additional energy loss because more current is required to deliver a required amount of power. Correcting power factor can be an appropriate and costeffective measure.
• Inductive load is major cause of poor factor and which is responsible for unnecessarily power loss, hence it results in rise of electricity bills of industrial, commercial consumer so Reactive power compensation is very need of today’s industries. We can easily control and maintain power factornear to unity with Automatic Power Factor Correction Panel.

APFC Panel Provides :

• Automatic power factor correction
• Wide range of correction stages 4 - 14 stage.
• Dampen effect of transient during capacitor switching
• Optimum reactive power compensation.
• Savings and incentives in electricity bills

As a quality driven institution, we are committed to manufacturing, exporting and supplying of exclusive range of Melt Pressure Transducers that are widely used in variety of industries like food, medical, chemical, etc. Our team of quality controllers checks the lot of raw materials, prior to assembling of Melt Pressure Transducers. These transducers are available in two unique styles; buyers can acquire them as per their requirements. We provide customized solutions, at cost effective prices.

 

Details : Melt Pressure Sensors are utilized in a wide variety of industries, including polymer, food, medical, and chemical extrusion processing applications. Melt Pressure Sensors are available in two unique Styles. The CT style is the classic melt pressure sensor with a 6" rigid stem and 18" of flex capillary for optimum thermal isolation. The RT style offers only a 6" rigid stem. Both styles come standard with the 6-pin Bendix style bayonet connector, and a 1/2-20 UNF mounting thread. Our Melt Pressure Sensors are fully interchangeable with all other major brands Melt Pressure  Transducer

Description : The Melt Pressure Transducer is ideal for general purpose Melt pressure applications. The unit 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.The Melt Pressure Transducer comes standard with a 6" rigid stem, 18" of flexible capillary, and a 1/2-20 UNF thread for mounting in standard transducer mounting holes.Melt Pressure Transducers are measuring instruments that are subject to damage if mishandled, improperly installedor dropped.

Features :

• 3.33 mV/Volt full scale output
• Accuracy +/- 0.25%, 0.5%, 0.1%
• Internal 80% shunt calibration
• Melt Pressure Transducer
• All welded all stainless steel construction
• Melt Pressure Transducer Diaphragm : The Melt Pressure Transducer is a sealed system. The sensing diaphragm is the most important component of the transducer. The standard diaphragm is of a one piece construction, machined from type 15-5PH stainless steel, with a proprietary coating designed to increase durability. It has a nominal thickness of 0.0050 inches. If the sensingdiaphragm becomes damaged in any way i.e.: dented, gouged or deformed, the transducer will no longer provide accurate readings and should be returned to for repair and/or replacement. See the repair and re-calibration information in the Technical section of our website for further details.
• Melt Pressure Transducer Mounting Hole : A poorly prepared or machined transducer mounting hole is one of the main causes of damage to the transducer. Extruder barrel wear should be monitored periodically. As the extruder barrel wears, the transducer diaphragm will move closer and closer to the barrel bore until it is flush with the sidewalls. Once the diaphragm is flush with the extruder barrel, it will wear at the same rate as the extruder barrel. To alleviate this problem, recommends that the transducer be recessed 0.0175" from the barrel bore. A copper spacer can be manufactured or purchased (to seal on the 45 degree seating surface) that will act as a separator backing off the transducer diaphragm from the inside barrel bore. If the transducer diaphragm protrudes into the extruder barrel, it is subject to unnecessary rapid wear and is subject to permanent damage by a passing screw flight.
• Melt Pressure Transducer Mounting Hole Threads : The transducer mounting threads should be 1/2-20UNF-2B. M18, M22, ¾ The mounting hole should be cleaned and inspected prior to the installation or reinstallation of a transducer. The use of a high temperature anti-seize compound will help in prevent galling and will allow easy removal of the transducer. Copper graphite anti-seize compounds are recommended.
• Melt Pressure Transducer Mounting Torque : Melt Pressure Transducers are capable of being installed at a mounting torque of up to 500 inch/pounds without damage or zero shifts; an adequate seal is generally achieved with a mounting torque of 100-200 inch/pounds. This can be accomplished by first installing finger tight and then tightening the transducer a quarter turn with a wrench. Excessive mounting torque will cause seizing and make the transducer difficult to remove.
• Melt Pressure Transducer Operating Temperatures : The Melt Pressure Transducer diaphragm is capable of operating at temperatures up to 750^oF. The transducer electronics are capable of operating at temperatures of up to 150^oF. It is important that the electronic housing not be exposed to temperatures above 150^oF.
• Melt Pressure Transducer Affects of Cold Starts : One of the most common causes of Melt Pressure Transducer diaphragm damage is cold starts. A combined temperature and pressure transducer can be used to insure that the extruder barrel is up to temperature prior to the rotation of the extruder screw.
• Melt Pressure Transducer Removal or Replacement : The transducer should only be removed or replaced while the machine is at operating temperature and the polymer is liquid. Removing the transducer from a cold extruder will cause diaphragm damage due to polymer adhesion. A transducer should never be installed into a mounting hole where there is the presence of solid polymer. If the diaphragm is forced against a solid, the transducer can easily be overloaded and left with a very high zero offset, often too high to be rezeroed.
• Melt Pressure Transducer Diaphragm : If the transducer is removed warm from the machine, the diaphragm can be easily be cleaned with a soft cloth. If there is solid polymer present, a fluidized bed cleaning system can be used. Never use a wire brush, knife, or torch to clean the tip of a transducer.

Ct6s melt pressure transducer, provided by us, is ideal for general purpose melt pressure applications. Our ct6s 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. We provide ct6s melt pressure transducer with standard with a 6" rigid stem, 18" of flexible capillary, and a 1/2-20 unf thread for mounting in standard transducer mounting holes. features of our ct6s melt pressure transducer

• 3.33 mv/volt full scale output
• accuracy +/- 0.25%, 0.5%, 0.1%
• internal 80% shunt calibration
• affordable

Our Electronic Light Curtains has quickly gained appreciation in the market for their energy efficiency, smooth finish and long functional life. Located in Delhi, India, we are one of the credible Manufacturers, Exporters & Suppliers of Electronic Light Curtains. We are capable of addressing divisive requirement of customers by providing huge assortment of Light Curtains, and also offer customized solutions.

 

Electronic Light Curtains :Safety Light Curtains / Safety Guards with microcontroller technology for -

• Hand Protection
• Finger Protection
• Protection of Body / Part of Body

Applications :

• Light Safety Curtains are used for preventing injuries of hand / finger / body part, while working at machines like.
• Power Presses for Metal
• Processing machines for Wood, Plastics, Leather, Rubber, Glass etc
• Filter Presses
• Folding or bending machines
• Processing Lines and Welding Presses
• Insertion Machines
• Palletizers
• Handling & Storage systems
• Rubber molding machines
• SPMs
• Forging Presses
• Injection Molding machines, etc.

Range :

• Electronic Light Curtain
• For further information / customized requirement, please contact us.

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

Counted among the renowned Manufacturers, Exporters and Suppliers, we bring forth an exclusive collection of Photoelectric Sensors to our patrons all across the nation. For making our product range as per industry standards, we make use of proximity sensors that are ideal for no contact sensing. Photoelectric Sensors are comprehensibly demanded for their exclusive attributes and timely deliveries. 

Our company is regarded as a prominent Manufacturer, Exporter & Supplier of Inductive Proximity Switches from Delhi, India. We check the Proximity Switches on various parameters and standards during production stages to ensure customers obtain a trustworthy product. Our Inductive Proximity Switches are highly demanded across the globe and can be availed by buyers at an economical price.

 

Inductive Proximity Switches :

• Inductive proximity switches are ideally suitable for no contact sensing of metallic objects. As inductive sensors work on electromagnetic principle, they are inherently resistant to dust, humidity and oil in industrial environment. Besides Proximity detection, continuous development in the field has led to new applications such as distance measurement with Analogue Types. Low power consumption , availability in wide range of packages and low unit price has made them very popular in industry.
• Standard Barrel Types - Housings of standard inductive ranges are made of Nickel coated brass barrels. They are widely used in noncorrosive atmospheres
• Limit Switch Style Blocks - With housings moulded in engineering plastic material these switches replace mechanical limit switches. We offer Models with multiaxes sensing to adopt design flexibility.
• Flat Types - These models in engineering plastic are best fit for conveyor belt applications to overcome z-axis limitations. They virtually substitute mechanical micro switches.
• Slotted Types - Designed for RPM measurement and zero speed detection these slotted versions are also available in engineering plastic housings

For those wishing to purchase reliable and high performance Dydac Coil Heaters, we are the best place. Our company is offering a comprehensive assortment of Dydac Coil Heaters. Well-known for their energy efficiency and high capacity, our Dydac Coil Heaters are the best. We provide them in bulk and provide exemplary after sales support for it.

 

Description : Dydac Coil Heaters for Hot runner systems are manufactured with Premium Materials and under Tight Manufacturing controls. Also known as cable heaters or Hotrunner heaters, these heaters are an advance concept of thermal engineering which has a construction similar to high watt density cartridge heaters. With years of practical experience, Dydac Coil Heaters ensure Highest Quality standards to provide superior performance and better life expectancy at higher temperatures for many diversed applications such as Hot Runner moulds, manifolds & machine nozzles.

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.

Another variety that we bring forth is widely used in automation applications and incorporates latest technological advancements. Made as per the industry standards, our AC Frequency Drives are used in different industries for various applications. Moreover, we hold expertise in providing AC Frequency Drives in customized options, at feasible prices. We are renowned Manufacturer and Supplier of AC Frequency Drives in India.

 

Description :

• We bring forth AC Frequency Drives that cover every automation application need in the industrial plant. These AC Frequency Drives incorporate the latest technological advancements in AC motor speed control, made possible by experience and dedication to quality in design and manufacturing. The adjustable frequency drives offer the greatest selection of size and performance available, with power ranges from fractional HP to 1500 HP. AC Variable Frequency Drives that has gained wide appreciation for international quality standards. Designed with the assistance of our advanced technology, the frequency drive efficiently generates strong torque at a low speed. The drive adjusts output voltage and slip frequency compensation timely to make motor work at the highest efficiency. The Frequency Drive s provides increased efficiency and product life for today's machinery applications. These easy-to-install adjustable frequency drives also feature a compact design to fit into tight spaces. These are designed to provide adjustable speed control of Single phase or three-phase motors. The size and simplicity of these drives make them an ideal choice for installations where space is a primary concern.
• The AC Frequency Drive ensures reliable and accurate load handling. Operating on real current vector control technology, it efficiently generates strong torque at a low speed. It has a built-in PID controller with sleep, wake up functions to maintain a constant pressure, flow and oil level. It has gained wide appreciation for automatically keeping the output voltage stable, even when the input voltage fluctuates.

Features  :

• Power range  -  1.5-1500KW
• Input voltage range  -  220V±20%, 380±20%, 415± 15%
• Removable dual LED display keypad  -  East for monitoring and parameters copy
• Reliable, accurate load handling
• Compact size design  -  All power size are typically 20% smaller
• Built-in smart logic controller
• Real current vector control technology  -  Generates strong torque at a low speed
• Static and rotation motor parameter auto tune
• Cooling fan On/Off selectable  -  Reduce energy consumption of inverter
• Built-in PID controller with sleep/wake up AC frequency drive functions to maintain a constant pressure, flow and oil level
• Automatic energy saving  -  Adjust output voltage and slip frequency compensation timely to make motor work at the highest efficiency
• Automatic voltage regulation  -  Automatically keep the output voltage stable when input voltage fluctuating
• RS485 communication supports standard Modbus - RTU protocol
• Support remote operation up to 1000m distance

Application Areas :

• CNG machine tools
• Extrusion
• Cranes
• Textile
• Printing & dyeing
• Chemical fibers
• Paper making
• Wire drawing
• Manipulator
• Solid warehouse
• Oxygen making machine
• Air compressor
• Ceramic machine
• Industrial washing machine

Reliable performance, precision accuracy and longevity are some of the prime factors, which make our Linear Scale Transducer Sensor high in demand among the global buyers. We are tagged as a reliable Manufacturer, Exporter and Supplier of Linear Scale Transducer Sensor sited in Delhi, India. Made from the finest quality material and cutting-edge technology, our Linear Scale Transducer Sensors are able to withstand extreme conditions.

 

Features :

• The transducer has been improved in order to guarantee greater reliability under all conditions
• A sturdier structure makes the Transducer even stronger for applications with heavy vibration
• Installation is made simpler by the absence of electrical signal variation in output, outside the Theoretical Electrical Stroke
• The new grooves provide an excellent alternative to the usual system of fastening with brackets
• Ideal for applications on plastic injection presses, vertical presses, and on many other processing
• machines
• This transducer is designed to guarantee a high protection level (IP67) in applications under harsh conditions and outdoors, where it may be necessary to work in the direct presence of dust, dirt, or liquids (not in prolonged immersion)
• The grooves on the profile provide an excellent alternative to the usual system of fastening with
• brackets
• Ideal for applications on plastic injection presses with installation at points that are highly exposed to lubricants
• Also indicated for processing machines on which the transducer cannot be protected by guards.]

• This transducer is designed to guarantee a high protection level (IP67) in applications under harsh conditions and outdoors, where it may be necessary to work in the direct presence of dust, dirt, or liquids (not in prolonged immersion)
• The grooves on the profile provide an excellent alternative to the usual system of fastening with brackets
• Ideal for applications on plastic injection presses with installation at points that are highly exposed to lubricants

• Also indicated for processing machines on which the transducer cannot be protected by guards

• The transducer has been improved in order to guarantee greater reliability under all conditions

• A sturdier structure makes the LT series even stronger for applications with heavy vibration
• Installation is made simpler by the absence of electrical signal variation in output, outside the Theoretical Electrical Stroke
• The new grooves provide an excellent alternative to the usual system of fastening with brackets
• Ideal for applications on plastic injection presses, vertical presses, and on many other processing machines
• The transducer has been improved in order to guarantee greater reliability under all conditions
• Mechanical linkage using joint with take up of play, M5 thread
• Installation is made simpler by the absence of electrical signal variation in output, outside the Theoretical Electrical Stroke
• The new grooves provide an excellent alternative to the usual system of fastening with brackets
• Ideal for applications on plastic injection presses, vertical presses, and on many other processing machines

• Grade of protection IP40

Made from the qualitative basic materials and cutting edge technology, our Electronic Digital Counters always remain high in demand. We are prominent Manufacturer, Exporter and Supplier of Electronic Digital Counter based in Delhi, India. Our offered Electronic Digital Counters are also available in different specifications, at the most reasonable prices. With us stay assured for timely deliveries.

Over the years, we have emerged as a one-stop destination, where buyers can get a range of Humidity Indicator & Controllers. We are prime Manufacturer, Exporter and Supplier of Humidity Indicator & Controllers in Delhi, India. The company has a team of quality controllers that supervises the entire process right from the selection of required material to the final delivery. Rely on us and place orders now!

 

Details :

• Humidity Indicators and Humidity + Temperature with Relay or SSR Output On Request
• 3 wire Capacitive sensor10-95 RH
• Size 72x72x110 36x72x74 96X96X70
• Humidity - Temperature Proportional/ On-off action
• Hysteresis - 0 to 20% RH :0 to 20
• Offset - 19 to+19% RH :-19 to+19°C Relay action : Humidity / Dehumidity Heat or cool
• Output - Single change over relay for each ( 5 Amp @ 230 VAC) SSR O/P on request

Another variety that we bring forth to our patrons is Programmable Digital Timer. As a quality driven institution, we are manufacturing, exporting and supplying of Programmable Digital Timer from Delhi, India. The product range is assembled at our well-equipped in-house facility and widely known owing to its memory retention feature. Our Programmable Digital Timers are available in different technical specifications, at nominal rates.

 

Multirange Series : SIZES  96X96X70   72X72X110    48x96x110    36x72x74 
Cyclic Timers

• Hr/Min/Sec - 99/59/59
• Hr/Min/Sec - 99/59/59
• Delayed ON / OFF CYCLIC

Time Totalizers : 

• 6 Digit time totaliser
• User selectable least count
• 10 years memory retention
• Accuracy - 0.05%

Sensing by  :

• Potential free contacts
• PNP Proximity sensor
• Supply voltage
• Setting via front keys
• Configuration lock

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 100^oC. 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 200^OC. 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 250^oC.

• 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.

By keeping eyes on the leading market requirements, we at Dydac Controls, engrossed in manufacturing, exporting and supplying of Melt Pressure Indicator from Delhi, India. Made from the best quality raw components, our Melt Pressure Indicators are used to display pressure, temperature, etc. Over the years, we have gained immense expertise in handling bulk orders. Buyers are free to place orders for acquiring our Melt Pressure Indicators at fair prices.

 

Details :

• Display pressure, temperature
• Optional second input/output for cost-effective single instrument
• View display information locally or remotely by optional Modbus RTU
• Bar graph display for quick-glance scaled value
• Two alarm relay output, third alarm optional
• Analog retransmission of process variable allows signal to be sent to other devices
• Configure locally or remotely by optional Modbus RTU
• Digital security code prevents unauthorized use
• IP65/NEMA 4X rated for harsh environments

Ideal For :

• Synthetic Fibres
• Photographic film
• Plastics - Solid extrusion
• Wire coating
• Multi-layer extrusion

Extrusion Melt Pressure Controllers :

• Melt pressure control
• Suitable for 4 or 6 wire transducers
• Pre-screen pressure monitor and alarm
• Pressure alarms
• Simple calibration
• Fieldbus communication options
• The Controllers are fully programmable melt pressure controller, suitable for precision pressure control in the plastic extrusion industries.
• In its basic format the Controller  standard hardware includes an input for melt pressure measurement, an analog output to drive the extruder screw and alarms to detect high and low pressure conditions.  Additionally, a second pressure input can be connected providing the facility to put a differential pressure alarm across the screen.  Automatic transducer calibration procedures and 5Vdc or 10Vdc transducer power supplies are provided for both inputs

SANREX TG70AA60 are isolated mould triac suitable for wide range of applications like

copier, microwave oven, solid state switch, motor control, light control and heater

control.

ITAV 70A

High surge capability 600A

Isolated NountingAC650V

Tab Terminals

Symbol	Item	Ratings		Unit
		TG70AA40	TG70AA60
VDRM	RepetitivePeakOff-StateVoltage	400	600	V
VDSM	Non-RepetitivePeakOff-StateVoltage	450	650	V

Symbol	Item	Conditions	Ratings	Unit
ITRMS	R.M.S.On-StateCurrent	Tc58	70	A
ITSM	SurgeOn-StateCurrent	Onecycle, 50Hz/60Hz, peak, non-repetitive	1080/1200	A
I2t	I2t		6000	A2S
PGM	PeakGatePowerDissipation		10	W
PGAV	AverageGatePowerDissipation		1	W
IGM	PeakGateCurrent		3	A
VGM	PeakGateVoltage		10	V
di/dt	CriticalRateofRiseofOn-StateCurrent	IG100mATj25VD12VDRMdIG/dt1A/s	50	A/s
Tj	OperatingJunctionTemperature		40to125
Tstg	StorageTemperature		40to125
VISO	IsolationBreakdownVoltageR.M.S.	A.C.1minute	2500	V
	MountingTorqueMountingM4	RecommendedValue1.0-1.410-14	1.515	Nm kgfB
	Mass			g

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 output
• accuracy +/- 0.5%
• internal 80% shunt calibration
• all welded all stainless steel construction

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°F149°F)

Indication :

• Constant Value Storage System
• Non-volatile memory (E2PROM)
• Indication Accuracy - 0.5%FS
• Proportional Band ( P ) - 0200% (On/Off action at P=0)
• Integral Time ( I ) - 03600 sec (PD action at I=0)

Control Mode :

• Derivative Time ( D ) - 0900 sec (PI action at D=0)
• Cycle Time - 0150 sec (420mA=0, SSR=1, Relay=10)
• Dead Band Time - 01000 sec (dead time compensation)

Relay Output  :

• Electromechanical relay - SPDT contacts 3A/240Vac
• Static relay driver output - Voltage Pulse, 20VDC/20mA

Output :

• Current & Voltage outputs - 020mA, 420mA, 05V, 010V, 15V, 210V
• 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 - 420mA, 020mA, 05V, 010V, 15V, 210V

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

We are counted among the leading names for manufacturing, exporting and supplying of Compensating Cables from Delhi, India. Our quality controllers ensure the quality of raw material prior to manufacturing Compensating Cables, thus our products always stand tall on all the quality parameters. Compensating Cables, that we offer, are used in various industries for different applications. Approach us, for availing Compensating Cables at pocket friendly rates.

Having years of experience, we are counted among the leading names for manufacturing, exporting and supplying of APFC Panels from Delhi, India. The entire product range is assembled by utilizing qualitative raw material in adherence with industry standards. Our offered product is widely used in different industries for automatic correction of fluctuating power factor. Buyers can acquire APFC Panels in different specifications, at cost effective prices.

 

Description :

• We design and manufacture automatic power factor correction panel. (contactor switching) Power Factor is ratio which represents actual power dissipated in A.C. circuit to the product of R.M.S. voltage and current. The phase difference between voltage and current is caused by reactance in circuit and represents power that does no useful work.
• Power factor is low in industrial settings where most of the plant energy is used to power electric motors. It is lowest when the induction motors tend to be oversized and under-loaded. A lagging (less than 1.0) power factor causes some additional energy loss because more current is required to deliver a required amount of power. Correcting power factor can be an appropriate and costeffective measure.
• Inductive load is major cause of poor factor and which is responsible for unnecessarily power loss, hence it results in rise of electricity bills of industrial, commercial consumer so Reactive power compensation is very need of today’s industries. We can easily control and maintain power factornear to unity with Automatic Power Factor Correction Panel.

APFC Panel Provides :

• Automatic power factor correction
• Wide range of correction stages 4 - 14 stage.
• Dampen effect of transient during capacitor switching
• Optimum reactive power compensation.
• Savings and incentives in electricity bills

As a quality driven institution, we are committed to manufacturing, exporting and supplying of exclusive range of Melt Pressure Transducers that are widely used in variety of industries like food, medical, chemical, etc. Our team of quality controllers checks the lot of raw materials, prior to assembling of Melt Pressure Transducers. These transducers are available in two unique styles; buyers can acquire them as per their requirements. We provide customized solutions, at cost effective prices.

 

Details : Melt Pressure Sensors are utilized in a wide variety of industries, including polymer, food, medical, and chemical extrusion processing applications. Melt Pressure Sensors are available in two unique Styles. The CT style is the classic melt pressure sensor with a 6" rigid stem and 18" of flex capillary for optimum thermal isolation. The RT style offers only a 6" rigid stem. Both styles come standard with the 6-pin Bendix style bayonet connector, and a 1/2-20 UNF mounting thread. Our Melt Pressure Sensors are fully interchangeable with all other major brands Melt Pressure  Transducer

Description : The Melt Pressure Transducer is ideal for general purpose Melt pressure applications. The unit 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.The Melt Pressure Transducer comes standard with a 6" rigid stem, 18" of flexible capillary, and a 1/2-20 UNF thread for mounting in standard transducer mounting holes.Melt Pressure Transducers are measuring instruments that are subject to damage if mishandled, improperly installedor dropped.

Features :

• 3.33 mV/Volt full scale output
• Accuracy +/- 0.25%, 0.5%, 0.1%
• Internal 80% shunt calibration
• Melt Pressure Transducer
• All welded all stainless steel construction
• Melt Pressure Transducer Diaphragm : The Melt Pressure Transducer is a sealed system. The sensing diaphragm is the most important component of the transducer. The standard diaphragm is of a one piece construction, machined from type 15-5PH stainless steel, with a proprietary coating designed to increase durability. It has a nominal thickness of 0.0050 inches. If the sensingdiaphragm becomes damaged in any way i.e.: dented, gouged or deformed, the transducer will no longer provide accurate readings and should be returned to for repair and/or replacement. See the repair and re-calibration information in the Technical section of our website for further details.
• Melt Pressure Transducer Mounting Hole : A poorly prepared or machined transducer mounting hole is one of the main causes of damage to the transducer. Extruder barrel wear should be monitored periodically. As the extruder barrel wears, the transducer diaphragm will move closer and closer to the barrel bore until it is flush with the sidewalls. Once the diaphragm is flush with the extruder barrel, it will wear at the same rate as the extruder barrel. To alleviate this problem, recommends that the transducer be recessed 0.0175" from the barrel bore. A copper spacer can be manufactured or purchased (to seal on the 45 degree seating surface) that will act as a separator backing off the transducer diaphragm from the inside barrel bore. If the transducer diaphragm protrudes into the extruder barrel, it is subject to unnecessary rapid wear and is subject to permanent damage by a passing screw flight.
• Melt Pressure Transducer Mounting Hole Threads : The transducer mounting threads should be 1/2-20UNF-2B. M18, M22, ¾ The mounting hole should be cleaned and inspected prior to the installation or reinstallation of a transducer. The use of a high temperature anti-seize compound will help in prevent galling and will allow easy removal of the transducer. Copper graphite anti-seize compounds are recommended.
• Melt Pressure Transducer Mounting Torque : Melt Pressure Transducers are capable of being installed at a mounting torque of up to 500 inch/pounds without damage or zero shifts; an adequate seal is generally achieved with a mounting torque of 100-200 inch/pounds. This can be accomplished by first installing finger tight and then tightening the transducer a quarter turn with a wrench. Excessive mounting torque will cause seizing and make the transducer difficult to remove.
• Melt Pressure Transducer Operating Temperatures : The Melt Pressure Transducer diaphragm is capable of operating at temperatures up to 750^oF. The transducer electronics are capable of operating at temperatures of up to 150^oF. It is important that the electronic housing not be exposed to temperatures above 150^oF.
• Melt Pressure Transducer Affects of Cold Starts : One of the most common causes of Melt Pressure Transducer diaphragm damage is cold starts. A combined temperature and pressure transducer can be used to insure that the extruder barrel is up to temperature prior to the rotation of the extruder screw.
• Melt Pressure Transducer Removal or Replacement : The transducer should only be removed or replaced while the machine is at operating temperature and the polymer is liquid. Removing the transducer from a cold extruder will cause diaphragm damage due to polymer adhesion. A transducer should never be installed into a mounting hole where there is the presence of solid polymer. If the diaphragm is forced against a solid, the transducer can easily be overloaded and left with a very high zero offset, often too high to be rezeroed.
• Melt Pressure Transducer Diaphragm : If the transducer is removed warm from the machine, the diaphragm can be easily be cleaned with a soft cloth. If there is solid polymer present, a fluidized bed cleaning system can be used. Never use a wire brush, knife, or torch to clean the tip of a transducer.

Ct6s melt pressure transducer, provided by us, is ideal for general purpose melt pressure applications. Our ct6s 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. We provide ct6s melt pressure transducer with standard with a 6" rigid stem, 18" of flexible capillary, and a 1/2-20 unf thread for mounting in standard transducer mounting holes. features of our ct6s melt pressure transducer

• 3.33 mv/volt full scale output
• accuracy +/- 0.25%, 0.5%, 0.1%
• internal 80% shunt calibration
• affordable

Our Electronic Light Curtains has quickly gained appreciation in the market for their energy efficiency, smooth finish and long functional life. Located in Delhi, India, we are one of the credible Manufacturers, Exporters & Suppliers of Electronic Light Curtains. We are capable of addressing divisive requirement of customers by providing huge assortment of Light Curtains, and also offer customized solutions.

 

Electronic Light Curtains :Safety Light Curtains / Safety Guards with microcontroller technology for -

• Hand Protection
• Finger Protection
• Protection of Body / Part of Body

Applications :

• Light Safety Curtains are used for preventing injuries of hand / finger / body part, while working at machines like.
• Power Presses for Metal
• Processing machines for Wood, Plastics, Leather, Rubber, Glass etc
• Filter Presses
• Folding or bending machines
• Processing Lines and Welding Presses
• Insertion Machines
• Palletizers
• Handling & Storage systems
• Rubber molding machines
• SPMs
• Forging Presses
• Injection Molding machines, etc.

Range :

• Electronic Light Curtain
• For further information / customized requirement, please contact us.

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

Counted among the renowned Manufacturers, Exporters and Suppliers, we bring forth an exclusive collection of Photoelectric Sensors to our patrons all across the nation. For making our product range as per industry standards, we make use of proximity sensors that are ideal for no contact sensing. Photoelectric Sensors are comprehensibly demanded for their exclusive attributes and timely deliveries. 

Our company is regarded as a prominent Manufacturer, Exporter & Supplier of Inductive Proximity Switches from Delhi, India. We check the Proximity Switches on various parameters and standards during production stages to ensure customers obtain a trustworthy product. Our Inductive Proximity Switches are highly demanded across the globe and can be availed by buyers at an economical price.

 

Inductive Proximity Switches :

• Inductive proximity switches are ideally suitable for no contact sensing of metallic objects. As inductive sensors work on electromagnetic principle, they are inherently resistant to dust, humidity and oil in industrial environment. Besides Proximity detection, continuous development in the field has led to new applications such as distance measurement with Analogue Types. Low power consumption , availability in wide range of packages and low unit price has made them very popular in industry.
• Standard Barrel Types - Housings of standard inductive ranges are made of Nickel coated brass barrels. They are widely used in noncorrosive atmospheres
• Limit Switch Style Blocks - With housings moulded in engineering plastic material these switches replace mechanical limit switches. We offer Models with multiaxes sensing to adopt design flexibility.
• Flat Types - These models in engineering plastic are best fit for conveyor belt applications to overcome z-axis limitations. They virtually substitute mechanical micro switches.
• Slotted Types - Designed for RPM measurement and zero speed detection these slotted versions are also available in engineering plastic housings

For those wishing to purchase reliable and high performance Dydac Coil Heaters, we are the best place. Our company is offering a comprehensive assortment of Dydac Coil Heaters. Well-known for their energy efficiency and high capacity, our Dydac Coil Heaters are the best. We provide them in bulk and provide exemplary after sales support for it.

 

Description : Dydac Coil Heaters for Hot runner systems are manufactured with Premium Materials and under Tight Manufacturing controls. Also known as cable heaters or Hotrunner heaters, these heaters are an advance concept of thermal engineering which has a construction similar to high watt density cartridge heaters. With years of practical experience, Dydac Coil Heaters ensure Highest Quality standards to provide superior performance and better life expectancy at higher temperatures for many diversed applications such as Hot Runner moulds, manifolds & machine nozzles.

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.