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The most advanced feature over its predecessor and perhaps other makers is the introduction of communication adapter. By using the adapter, the user can replace all its hardwire connection to the the analogue cards of the controller with just a simple communication cable. No more overwhelming hardwire from each analog point to each and every signal conditioner. The protocols supported are Modbus TCP and RTU, Ethernet IP and Profibus with more to come in the near future. gas exchange in the lungs happens by the process of Besides saving cost, this can save space in the panel as there is no more need for analogue cards. Furthermore, there is also a backbone power supply accesory called the TBUS where one can power up just one of the signal conditioners and all the connecting units in the same row will be powered up. No more overwhelming power supply cables to each individual signal conditioner.

Mini Analog Pro offers additional configuration options compared to most, if not all, of the other signal conditioners in the market, which can only be configured with the laptop or dip switch setting which requires the accompanying data sheet for reference. More frequently than not, engineers are met with situations where it is inconvenient to bring the laptop to site, or worse, unable to find the configuration cable when you need it. If one is not using Mini Analog Pro, this will means one has to delay the work, thus affecting productivity. With the latest Mini Analog Pro, one can use a smartphone with NFC technology to perform the configuration. The software is easy to use and can be pre-downloaded from the Google PlayStore in preparation for sites where internet connection is not available.

There are times when one has to measure the current values of field devices that are in operation for verification or troubleshooting. With the previous version or with signal conditioners from other makers, one would have to disconnect the cables in order to prevent parallel connections that will affect the actual reading. This adds extra work and effort. The user can now measure the current directly without removing the cables. This is realized technically with the Mini Analog Pro by integrating a diode into the circuit and therefore, parallel measurement is now possible with great accuracy.

Even when one has to absolutely remove the cables due to safety or space issues, the Mini Analog Pro offers an innovative alternative. Each module comes with 4 connection blocks for respective input, output or power supply connections. The connection blocks can be removed easily by using a screwdriver to twist the orange lever above or just by pulling it with moderate force. In this way, the connections are still in the individual blocks and can be reconnected back easily without any need to screw each of the individual cables again. gas zauberberg Mistakes can also be avoided because all four of the connection blocks in the signal conditioners are fail safes. Only the right connection blocks can be fitted in its rightful place. Imagine if one does not have this feature and if all cables are disconnected, one would have to check and screw all of them back accordingly.

The Mini Analog Pro also has much improved signal quality due to the highest level of galvanic isolation. This increases the accuracy, making it more suitable for the increasingly demanding industry requirements. Furthermore, it has been subjected to 3kV test voltage and 300 V rated insulation voltage. This test ensures that the isolation properties are tried and tested before being deployed in the field. The temperature range it can operate in has also been extended. It can now perform perfectly within the range of 40C° to 70C°. This allows reliable operation in harsh environment.

Smart Buildings and smart cities are continuously transforming how people carry out their activities on a daily basis. Smart cities will soon emerge with things like street lights and parking meters connected to commercial buildings and connected to the internet. At present, some cities have started implementing the smart city approach by connecting everything about their community to the internet. Along with conserving energy, smart buildings will help save money. Here are some of the biggest IoT smart building trends likely to take shape this year.

Phoenix Contact designs robust and high-speed controls for the most demanding applications using the Niagara 4 Framework. electricity manipulation The ILC 2050 BI goes far beyond building automation, providing industrially hardened control and modular I/O running the Niagara 4 Framework. Gain maximum flexibility from a large variety of I/O modules Connect up to 63 I/O modules on the local bus. Get support for DALI, MP-Bus, and M-Bus maximum 16 (RS‐232, RS‐485, M‐Bus, DALI) with special function modules.

You can use the ILC 2050 BI controller to automate different subsections in the building infrastructure, data centers and distributed properties. It has a variety of interfaces and supports a wide range of protocols. The integrated Niagara Framework enables you to have IoT-based automation due to standardization of various data types. This makes it easy to connect various sensors and actuators regardless of the manufacturer and communication protocol. The controller’s functions can be expanded with the Inline I/O Portfolio from Phoenix Contact. The Inline I/O Concept

The areas of application for TTC are so diverse that they can be used in any industry. Thanks to the narrow overall width, starting at 3.5mm, the product range is ideal for process technology, as very often, a high density is required in the distribution cabinets. They protect up to 572 signals in one meter, which mean more products can be installed in the cabinets. The number of cabinets can be reduced so as to save cost. The various approvals permit use in onshore and offshore applications. The TTC portfolio offers the widest range of features and therefore an optimum selection of products for your applications. The narrowest surge protection

If a protective element is disconnected in the event of surge voltages, the disconnected device closes the monitoring channel and group remote signalling is triggered. The overloaded device is displayed on site by the status indicator (in the picture highlighted in red). This is purely mechanical, without consuming energy from the signal lines. Pluggability

I believe that many of us have experienced similar problems with plugs and sockets as pictured above, especially while travelling. Due to poor designs, some of our bulky charging equipment for our phones, laptops or cameras may not be able to charge. This creates massive inconvenience for us as we are unable to use our devices when we need them. In times like these, being able to adjust the wall plug orientation would solve the problem.

Surprisingly, such problems also arise in factories and warehouses that usually utilise heavy machinery. However, having such problems with heavy machinery will bring about more inconvenient repercussions such as having to move your machine to another location or adjusting your wall plug so that the socket can be plugged into it. gas gangrene These will bring about higher costs and also more tedious work.

Our Heavycon Evo is a heavy duty connector which allows the cable gland to be connected vertically or horizontally depending on the site conditions and requirements. The housing offers range from B6 to B24 and cable gland sizes of M20, M25, M32 and M40. Because of how customisable the product is, using it reduces the inventory in stock. Heavycon Evo is particularly useful when it comes to installation of cables in rather tight spaces. This also helps create a more compact setup which saves space. In cases where the wiring and connection points between cables are in obscure and inconvenient positions, the Heavycon Evo allows the user to alter the orientation of the sleeves from horizontal to vertical or vice versa. This feature also allows the wiring to last longer as the wires will not be in positions where they are under high tension.

Besides fulfilling its original purpose, the Heavycon Evo has additional benefits. When told that the Heavycon Evo is made up of plastic, many have the impression that it is not very durable. However, the fact that the Heavycon Evo is made of plastic brings about many benefits. The Heavycon Evo is made of high grade polyamide plastic that has gone through stringent quality checks such as IP and Nema degrees of protection, vibration, temperature shock, shock resistance, roll-over test and the dynamic load special test which verifies that the Heavycon Evo bayonet locking and double latch do not open independently or malfunction even in the case of extremely high static loads. Furthermore, the high grade plastic of Heavycon Evo will drastically lessen the load of machinery as it is significantly lighter than its metal counterpart by up to 50%.

Heavycon Evo enables the multiple connections of data, power and signal in a single housing with up to six difference combinations. We have also implemented our state of the art push-in technology in our inserts to allow easy, fast and secure connections in every application. Lastly, there is a common misunderstanding that plastic sleeves cannot match the applications of metal sleeves. However, this is not true as our Heavycon Evo is compatible with all existing setups of up to 24 positions with existing metal setups.

In today’s world, people appreciate monitoring because we would be happy to observe and check on the progress of something over a period of time. For example, we install CCTV at home to check on our family’s safety; we keep our phone GPS turned on to keep our loved ones informed of where we are; we join different social media platforms and post crazily to keep ourselves “alive” and keep others “alerted of our presence”.

In the industrial world, condition monitoring is also a trendy topic. It is the process of monitoring a parameter of conditions in machinery (vibration, temperature etc.), in order to identify a significant change which is indicative of a developing fault. electricity how it works The ultimate objective of condition monitoring is to achieve predictive maintenance to avoid a burst of the operating cost and to increase productivity and efficiency.

Your system will be safeguarded by Phoenix Contact because we can help you to put it under close monitoring before the developing of faults (predictive maintenance) or immediately right after the faults occur (preventive maintenance). If you are interested to find out how our monitoring system can contribute to your operating expenses (OPEX), feel free to contact me via the form below!