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Examples for the use of a Helmholtz Coil system:
- generation of a 3 dimensional homogenous magnetic field
- active magnetic shielding from sub Hz to MHz frequencies
- specification of gradiometers
Some characteristics:
- large 1/1000 error free homogenous region (20x20x20 cm3)
- transportable unit (1hour installation)
- delivery including transportation box |
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Supply the required electrical energy needed to ignite the air-fuel mixture in a multi-port or direct injection gasoline engine's combustion chamber. They are designed to meet a variety of continually evolving requirements for combustion calibrations.
Delphi's ignition coils are designed to operate dependably and reliably under all operating conditions and throughout the entire engine speed range to help manufacturers meet the highest engine performance, exhaust emissions and fuel economy requirements.
Delphi's portfolio of ignition coils includes: Pencil Coils, Plug Top Coils, Coil-Near-Plugs, Waste Spark Pencil Coil Packs, and Ion Sense and Multi-Charge Ignition Systems. Delphi also offers Non-Automotive Engine Ignition Systems for small engine products.
Delphi has more than 100 years' experience in ignition systems and builds more than 23 million ignition coils annually. |
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hotset presents a wide product spectrum of hotspring® coil heaters:
- Starting with WRP / Micro up to WRP / Maxi with different lenghts and diameters.
- Brass-coil heaters or coil heaters with clamping mechanism as heating elements for different applications.
- Heating systems such as the hotcast® sealed heater (GMH) or the hotcone® heated nozzle (BMD).
- Special products such as hotslot® and hotslight®.
- As well as a wide spectrum of applications.
hotset was already in 1980 one idea ahead as they presented the first round coil heater (type WRP Ø 3.3). Since then further innovations have been made: WRP / Mini, flat and square coil heater (WRP / F resp. WRP / Q), WRP / Maxi as well as WRP / Micro.
This innovation as well as the humidity-resistant coil heaters according to I.P. 65 (WRP Ø 3.3 - WRP / F 2.2 x 4.2 – WRP / Q 3.0 x 3.0) emphasize the consequente alignment to new challenges.
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mGard is the premier range of modular robust trapped key interlocks for heavy duty applications. Trapped key interlocking is a tried and tested method of mechanically safeguarding dangerous machines and hazardous processes, and is suitable for category 4 (EN 954-1) applications. It is called "Trapped Key" as it works by releasing and trapping keys in a predetermined sequence. After the control or power has been isolated, a key is released that can be used to grant access to individual or multiple doors.
The principles of trapped key technology apply to all industries where it is essential that all energy sources are isolated before gaining access to machinery. Almost all safety issues can simply be solved by selecting the required products in the following order
- Power/Control isolation
- Key exchange units
- Door locks & actuators
Benefits of mGard
- No wiring on the installation
- Pattented runner bar system
- Pure mechanical configurations can be used in ATEX zones 1,2
- Create pre-determined safety procedures
- Designed for use in harsh environments (dust moisture and vibration)
- Robust heads and actuators and handles (with missallignment) |
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AZM range solenoid interlocks, operating in combination with control elements of a machine, e.g. fail-safe standstill monitors or fail-safe delay timers, ensure that sliding, hinged and removable guarding devices, such as grids , hoods or doors, cannot be opened until hazardous conditions (e.g. running-down movements) have come to an end.
These solenoid interlocks are also used for cases in which the opening of a guarding device represents a non-permissible intrusion in a production process.
In combination with AES and AZR range safety monitoring modules, the AZM range solenoid interlocks achieve Control Category 3 or 4 to EN 954-1, subject to suitable circuit arrangements. Examples of circuits for solenoid interlocks are shown in the Schmersal Control Circuit and Applications Handbook.
Schmersal make both standard and AS-i Safety at Work solenoid interlocks.
Click here to see the AS-i models
Or for the standard models click below
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LOCKABLE SWITCH in a box with 1 to 3 key slots from 5 to 215 KW
Mechanical or electromechanical blockage of power circuits in the open position.
It has one blocking or interlocking latch that can release from 1 to 3 keys.
Protection: IP 55
Options: ADF; 4 poles - 6 poles; Timer; Blockage in the open position; Advance action auxiliary contacts upon request. |
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The NX range permits a module selection which includes at the same time mechanical interlocking systems so that it turns into one single element.
The NX range is a versatile and modular system for machinery guarding applications. The NX range is composed of mechanical bolt locks with modules like herses for padlock or electrical contact of security, and accessories from different latches type.
The principle of key release and locking is directly integrated in the interlocking system.
The NX range is completely evolving and can be tailored for any application due to its modular configuration. NX is also easily adapted to changing circumstances. As regulations or procedures change, modules can be removed and new features can be simply added to the unit. This range is totally suitable with security norms in force which always are becoming stronger.
The different components of the NX range are completely built in stainless steel so that they can give a perfect resistance to harsh environments. Fields of application are diverse: concrete, chemistry, energy, electric, etc…
In order to respond to the requirements of the industry branch, Serv Trayvou has developed the NX-range whose system is modular and very heavy duty.
Through this range STI proves all its expertise and technical know-how which place the company as a specialist in safety devices for hazardous machines. |
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RTK*E
* From 1 to 6 key slots
- Without contacts, this rotating lock is used to block circuit breakers, differential circuit breakers, accesses, ...
-Equipped with contacts permits blocking of command circuits (2O-2F) or power circuits (3O-1F up to 22KW)
- There are various versions available based on the application needs
Positive safety: Opening of the circuit by extraction related to the handling of the key.
Key logic:
%u2022 Without contacts, cam action
%u2022 1 Key: Held Key, 2 contacts
open, 2 contacts closed
%u2022 Various keys: Associative functioning ( )
%u2022 Various keys: Interchange functioning ( / ) (A keys free, B keys held) |
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Magsafe is Smartscan’s latest innovation in machine safety. An electro-magnetic interlocking system for controlling personnel access through the gates and doors set within the perimeter safety fencing or screens surrounding potentially hazardous machinery.
The key design element in Magsafe was to lock the door using magnetic force rather than by mechanical means and to remove the problems that plague existing gate locks due to liquid and dirt exposure in combination with the rigors of daily operation. This causes fatigue and leads to mechanical failure of the product. The ability to withstand harsh industrial environments such as water, dust and corrosive liquids Magsafe is the perfect solution for most guard locking applications.
In addition to this Smartscan has applied its safety light curtain technology background to the safety gate interlocking market by providing a system control unit which continuously monitors the on and off state of the magnets. This ensures the system detects when the gate is open and when it is closed. Only when the gate is closed and the magnetic locking force applied, will the control system allow machine operation. |
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Designed to control access to the dangerous or protected areas, this device is installed in any kind of door, gate, housing, and permits remote unlocking from a distance.
Equipped with a forced opening contact, it permits the detection when the access is closed again. |
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mGard is the premier range of modular robust trapped key interlocks for heavy duty applications. Trapped key interlocking is a tried and tested method of mechanically safeguarding dangerous machines and hazardous processes, and is suitable for category 4 (EN 954-1) applications. It is called "Trapped Key" as it works by releasing and trapping keys in a predetermined sequence. After the control or power has been isolated, a key is released that can be used to grant access to individual or multiple doors.
The principles of trapped key technology apply to all industries where it is essential that all energy sources are isolated before gaining access to machinery. Almost all safety issues can simply be solved by selecting the required products in the following order
- Power/Control isolation
- Key exchange units
- Door locks & actuators
Benefits of mGard
- No wiring on the installation
- Pattented runner bar system
- Pure mechanical configurations can be used in ATEX zones 1,2
- Create pre-determined safety procedures
- Designed for use in harsh environments (dust moisture and vibration)
- Robust heads and actuators and handles (with missallignment) |
|
AZM range solenoid interlocks, operating in combination with control elements of a machine, e.g. fail-safe standstill monitors or fail-safe delay timers, ensure that sliding, hinged and removable guarding devices, such as grids , hoods or doors, cannot be opened until hazardous conditions (e.g. running-down movements) have come to an end.
These solenoid interlocks are also used for cases in which the opening of a guarding device represents a non-permissible intrusion in a production process.
In combination with AES and AZR range safety monitoring modules, the AZM range solenoid interlocks achieve Control Category 3 or 4 to EN 954-1, subject to suitable circuit arrangements. Examples of circuits for solenoid interlocks are shown in the Schmersal Control Circuit and Applications Handbook.
Schmersal make both standard and AS-i Safety at Work solenoid interlocks.
Click here to see the AS-i models
Or for the standard models click below
|
|
LOCKABLE SWITCH in a box with 1 to 3 key slots from 5 to 215 KW
Mechanical or electromechanical blockage of power circuits in the open position.
It has one blocking or interlocking latch that can release from 1 to 3 keys.
Protection: IP 55
Options: ADF; 4 poles - 6 poles; Timer; Blockage in the open position; Advance action auxiliary contacts upon request. |
|
The NX range permits a module selection which includes at the same time mechanical interlocking systems so that it turns into one single element.
The NX range is a versatile and modular system for machinery guarding applications. The NX range is composed of mechanical bolt locks with modules like herses for padlock or electrical contact of security, and accessories from different latches type.
The principle of key release and locking is directly integrated in the interlocking system.
The NX range is completely evolving and can be tailored for any application due to its modular configuration. NX is also easily adapted to changing circumstances. As regulations or procedures change, modules can be removed and new features can be simply added to the unit. This range is totally suitable with security norms in force which always are becoming stronger.
The different components of the NX range are completely built in stainless steel so that they can give a perfect resistance to harsh environments. Fields of application are diverse: concrete, chemistry, energy, electric, etc…
In order to respond to the requirements of the industry branch, Serv Trayvou has developed the NX-range whose system is modular and very heavy duty.
Through this range STI proves all its expertise and technical know-how which place the company as a specialist in safety devices for hazardous machines. |
|
RTK*E
* From 1 to 6 key slots
- Without contacts, this rotating lock is used to block circuit breakers, differential circuit breakers, accesses, ...
-Equipped with contacts permits blocking of command circuits (2O-2F) or power circuits (3O-1F up to 22KW)
- There are various versions available based on the application needs
Positive safety: Opening of the circuit by extraction related to the handling of the key.
Key logic:
%u2022 Without contacts, cam action
%u2022 1 Key: Held Key, 2 contacts
open, 2 contacts closed
%u2022 Various keys: Associative functioning ( )
%u2022 Various keys: Interchange functioning ( / ) (A keys free, B keys held) |
|
Magsafe is Smartscan’s latest innovation in machine safety. An electro-magnetic interlocking system for controlling personnel access through the gates and doors set within the perimeter safety fencing or screens surrounding potentially hazardous machinery.
The key design element in Magsafe was to lock the door using magnetic force rather than by mechanical means and to remove the problems that plague existing gate locks due to liquid and dirt exposure in combination with the rigors of daily operation. This causes fatigue and leads to mechanical failure of the product. The ability to withstand harsh industrial environments such as water, dust and corrosive liquids Magsafe is the perfect solution for most guard locking applications.
In addition to this Smartscan has applied its safety light curtain technology background to the safety gate interlocking market by providing a system control unit which continuously monitors the on and off state of the magnets. This ensures the system detects when the gate is open and when it is closed. Only when the gate is closed and the magnetic locking force applied, will the control system allow machine operation. |
|
Designed to control access to the dangerous or protected areas, this device is installed in any kind of door, gate, housing, and permits remote unlocking from a distance.
Equipped with a forced opening contact, it permits the detection when the access is closed again. |
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| Mencom Corporation is a worldwide supplier of DIN Solenoid Valve Connectors. Product line includes over molded connectors, field wireable connectors, and quick disconnect connectors in form A, form B, Industry Standard form B, form C, and Industry Standard form C. |
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| The pre-wired and overmolded mPm valve Junior Timer connectors offer an economical alternative to hard wiring and mate with industry standard Junior Timer connector interfaces on solenoids and other mobile hydraulics devices and other harsh environment applications. The Junior Timer connectors are also available with surge suppression circuitry that extends the life of the coil and control circuitry. LED indication is built into the connector head for easy identification of system status. With an IP65 environmental rating, the Junior Timer provides protection in harsh and demanding environments. Plus the cable locking clip protects the connection in high vibration applications. |
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| The line of mPm DIN connectors is designed to reduce the number of components making them easier to assemble and with fewer parts to stock. They provide repeatable, unsurpassed IP67 sealing performance using an external nut over the cable. Traditional Form A and B connectors require three different styles for PG07, PG09 and PG11. However the external nut accepts a wider range of cables from 4mm to 9mm, reducing the number of parts from 3 to 1. The new generation of DIN connectors is available in our complete range of field attachable sizes including Form A, B and C. |
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The Control is a PID controller that makes any solenoid valve "intelligent", the choice of solenoid valve depending on the user's application (from among the 601, Posiflow, Preciflow solenoid valves etc), and on the installation, which may be in a critical environment.
The Control can control 2 loops in the same manufacturing process, whether they are open, closed or double (cascaded). For instance:
- In an open loop: the Control adjusts the valve's pressure or flow rate (without a sensor) by measuring the feedback value.
- In a closed loop: the Control continuously compares the set pressure or flow with the set point thanks to a signal emitted by the sensor. The benefits? Very precise control (hysteresis of 1%) that reacts to external interference
- In a double loop (with 2 sensors): the first loop adjusts the valve's pressure or flow for optimum control, while the second loop returns the signal of the relevant feedback value (pressure, position, force etc). Because the process's response time is integrated into the control process as a whole, the latter is more stable. |
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General Description
The D3C and D3D Series directional control valves are high-performance, 4-chamber, direct operated, cam controlled, 3 or 4-way valves. They are available in 2- position and conform to NFPA?s D05/CETOP 5 mounting patterns.
Features
Choice of 2 cam roller positions (D3C and D3D)
Short stroke option
High flow, low pressure drop design
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| The latest addition to the IPoD range, this is a power driving module for up to 6 injectors using magneto-electric technology in multiplex mode. It features several different driving modes and numerous advanced functions enabling it to adapt to most commercially available injectors. This power driver is ideal for motor development in R&D applications or for after-sales service and endurance tests in Quality Control applications. |
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EFS 8427 IPOD COIL
PRESENTATION
The EFS 8427 rack is a power
driving module for injection
systems that use magnetoelectric
technology.
It features different driving
modes and advanced functions
making it adaptable to most of
the injectors available on the
market.
ADVANTAGES
• Internal power supply adjustable from 6 to 50 V (compatible with the new automobile
systems powered under 42 V)
• Can operate at high voltages of up to 150 V and can generate up to 30 A peak value
• Independent unit with internal pulse generator
• Features functions compatible with the whole range of 823x Ipods
USE
The injector driving parameters can be modified by means of an RS232 or RS485 (4wire)
link, using the MODBUS protocol:
• MODBUS identification on the front panel
• Daisy chaining of racks by means of the RS485 link
• PC supervision software available on demand.
The injector driving can be started:
• by an external input
• by an internal pulse generator.
The driving modes are derived from a basic cycle defined by the following
phases:
• Boost phase (high voltage capacity discharge) as an option
• Pull-in phase (current chopping on thresholds)
• Holding phase (current chopping on thresholds)
• Discharge phase (Zener voltage).
The system is fully protected against overcurrents, short-circuits and overheating.
DRIVING EXAMPLES
Driving type 8238 Driving type 8237Driving type 8232 |
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