The M5600 series wireless pressure transducer features a high accuracy, 24-bit ADC digital output eliminating hard wiring and provides remote process control and monitoring via Bluetooth® 4.0 wireless communication.
TE Connectivity (TE) Sensor Solutions Senior Product Development Engineer Hai Mei discusses the various benefits and applications of Microfused technology in this webinar.
The M5600 series wireless pressure transducer from our Microfused line is enclosed in a stainless steel and polycarbonate housing. This series is suitable for measurement of liquid or gas pressure, even for difficult media such as contaminated water, steam, and mildly corrosive fluids. The wetted material of the pressure port is made of either 17-4 PH or 316L stainless steel and the transducer’s durability is excellent with no o-rings, welds or organics exposed to the pressure media. The M5600 wireless pressure transducer is weatherproof and exceeds the latest heavy industrial CE requirements. This wireless pressure transducer is geared to the OEM customer for mid to high volumes. TE stands ready to provide a custom design of the M5600 where the volume and application warrants. Additional configurations not listed are either available or possible. Please inquire for further information.
TE Connectivity (TE) designed a survey for engineers on a variety of topics related to IoT design. We got responses from 180 engineers ... primarily senior engineers with a stated interest in consumer, industrial, and automotive IoT. Our survey explored IoT applications and design methods and then identified common challenges that exist across this space.
The Internet of Things is changing everything — everywhere. Yet the path and scope of those changes seem very unsettled — particularly for design engineers who have to fully understand and embrace the changes and how to best leverage them in new designs.
With this in mind, TE Connectivity (TE) designed a survey for engineers on a variety of topics related to IoT design. We got responses from 180 engineers ... primarily senior engineers with a stated interest in consumer, industrial, and automotive IoT. Our survey explored IoT applications and design methods and then identified common challenges that exist across this space.
So where do we stand just now, and is it just hype?
We think our survey assesses the opportunities and separates the hype from the reality. Here’s what we learned.
First, 5G will continue to expand the proliferation of IoT.
5G networked devices can be just about anything. With the ability to connect to thousands of devices at once at exceptionally fast speeds and low end-to-end latency, engineers anticipate 5G will have a significant impact on IOT applications. Nearly 60 percent of respondents believe the advent of 5G will mean getting data faster and that, in turn, will result in new applications of all kinds for IoT.
Second, engineers see several areas that they expect to dramatically shape IoT.
Here’s what we learned.
29% said the ability to capture different kinds of data was critical.
26% said gathering more data faster from applications was significant.
25% cited lower current consumption in IOT devices that would enable networks to reduce power consumption overall and therefore also diminish strain on data transmission.
19% mentioned the importance of smaller, miniaturized components.
Third, engineers think IoT requirements are not being fully met in a number of areas, and ranked these areas as most important:
Hardware endurance: 57%
Measurement accuracy tied with measurement stability: 52%
Sensor intelligence: 46%
Processing speed: 31%
Cloud analytics: 16%
These last two areas – processing speed and cloud —were considered less vital.
Fourth, we found that miniaturization is universally seen as key to IoT development.
85% of survey participants overwhelmingly agreed, and 47% thought this was very true.
Another 38% felt it was somewhat significant to the continued proliferation of the IoT.
At the same time, 15% believe sensor miniaturization has already gone as far as is needed.
Fifth, we talked about how IoT is expected to evolve into what experts predict will be a pervasive network that connects virtually every aspect of our lives.
Survey participants see three common major challenges when designing for IoT.
The first two challenges were finding the right hardware and connectivity. Nearly half of respondents — some 49% mentioned these two challenges. We don’t think that is surprising given that today there are multiple wired and wireless options to connect IoT devices. All of these connectivity standards and technologies serve valuable purposes yet taking on all of those standards from Wi-Fi to Bluetooth to Ethernet is a significant undertaking.
The third challenge was security — 44% mentioned this. Others mentioned developing the right software at 43% and cloud computing issues, trailing at 14%.
Sixth, when we asked how many engineers have really started their IoT solution design — we discovered that most seem to start at the same point.
The vast majority of engineers are beginning with hardware choices — 78% — while only 22% started by specifying software.
At TE Connectivity, we think all of these findings are exceedingly relevant today. We believe we are in the midst of what we call the fourth industrial revolution — the convergence of physical things with the Internet of Things. It’s why we think this data and our analysis is so important.
From the data, it is clear that IoT is here to stay, it’s growing, and will impact design engineers moving forward. TE Connectivity has extensive experience with engineers worldwide. We expect the growth of connected things within the next five to ten years to be very significant — and we plan to play a key role with our products. Let’s work together on the IoT opportunity.
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