2017 medical technology development trend: based on actual medical needs

Informatization in China is an inevitable trend, but in the United States on the other side, there is more than a basic electronic health record system. What they want now is more efficient communication, data storage and security, analysis, and bed management.

Recently, the consulting company HIMSS AnalyTIcs analyzed the medical technology in 2017, and discharged the technology that is most needed in the United States and most likely to be purchased by the hospital. In their view, these technologies will have significant growth potential in 2017. We have chosen some interesting and newer perspectives on the technical direction listed below.

These technologies do not focus on the monotonous concepts of telemedicine, mobile medicine, and precision medicine, but often follow the actual needs of medical institutions and combine the development trend of technology. The scope includes information management, asset management, medical imaging, security, and even doctor evaluation. These technical directions are worth learning and thinking.

1. Infusion management system and sample collection management system

These are prepared for truly advanced laboratory systems that manage infusions, including blood and breast milk, and then mark them from a sample management perspective, ensuring that each sample has a bar code when the collector collects them. Tracking can be done throughout the hospital and further ensure that the correct samples are used for proper testing.

While other innovations, such as laboratory outreach services (ensuring that people are truly experimentally tested) and genomics are highly optimistic, the overall level of demand is still lower than the system that is more effective in ensuring routine experimental systems.

2. Infection monitoring system

Simply put, it is to reduce the infection caused by the hospital, to manage and monitor. The importance of this point is self-evident for the hospital.

3. Anesthesia information management system

The biggest risk of the hospital is probably the surgical link. It is very important to ensure anesthesia monitoring. It is also the most dangerous part of hospitalization, and nearly 40% of hospitals in the United States currently use this system and will grow.

4. Molecular diagnosis / precision medicine

Another word is precision medicine. There are already some large medical systems that use precision medical treatment, especially in oncology, which is involved in almost every cancer hospital. A current trend for precision medicine is the “central-radiation” model, where large medical centers have the technology to serve small medical institutions.

5. Radiation 3D image and display

As the imaging capabilities increase, the images we see become more and more complex. After all, a three-dimensional mammogram will have a capacity of terabytes. The image becomes more discrete and the volume and size increase accordingly. Managing a massive 3D model requires special displays and software, and this block will see even stronger growth.

6. Heart 3D image and display

The reason is the same as that of radiological imaging. The processing demand for cardiac imaging will also increase. However, some hospitals do not provide such services, so the scope of use is relatively narrow, but the growth curve is similar.

7. Nurse Communication System

For almost all hospitals, nurses have the largest proportion of people and the most direct face to patients, so it is important to ensure that they do the right thing in the right place and take care of the right patients at the right time.

8. Physician assessment tool

This is a very interesting point in medical technology. Now the hospital will record various data such as infections, suture infections, and serum infections caused by hospitals. At the same time, monitoring whether a particular doctor will have more such cases will lead to better medical results. This may give the doctor a feeling of being monitored, but preliminary analysis shows that measuring the results of individual doctors does have a positive effect on reducing infection.

9. Asset Tracking and Management

In fact, this is also part of medical informatization. Just like we will update the computer system, shouldn’t we always know the depreciation of the medical server? There are more and more medical electronic devices at any time, understand the location of these devices, and know about them. Whether it is safe or not is very important.

10. Hospital bed management

Since hospitalized patients will be managed, bed management is taken for granted. Knowing the type of patient living in the bed, the rate of use, and the number of patients served in a single bed are all important data and should be integrated into some BI and analysis tools.

11. Data Warehouse and Data Mining

Many hospitals have databases, but they are usually self-developed patchwork systems. Now more and more organizations want to turn hospital data into an asset. After all, having data is one thing, and using it is another.

12. Encryption, firewall and spam and spyware filtering

In recent years, medical information security incidents have occurred frequently, but one reality is that many hospitals do not have corresponding security technologies. In 2015, the United States for medical information leaks caused by various reasons, involving a total of about 110 million people, equivalent to one-third of Americans are affected. This figure is 2.7 times the total number of leaks in the previous five years.

There are already some emerging tools, such as security incident information management systems, but ongoing cybercrime will continue and hospitals will have to complete security measures.

13. Real-time positioning system

At present, some hospitals are already using RFID, and most of them are used in some specific departments, such as RFID on the tray of the pharmacy to ensure that all drugs are correct. However, RFID-based extensions can be used to track and locate assets and people, improve security and security, and optimize workflow and staff management.

14. Cloud-based storage

At present, many hospitals use the storage services of major EMR vendors, and the transition to the cloud is slower because there are some security considerations. But more and more hospitals are starting to migrate to the cloud, after all, most people are also hosting outside the site.

2.0mm Female Pin Header

2.0mm (0.079") Pitch Female Headers

Overview

2.00 mm pitch female sockets/headers are low-profile connectors designed for signal and low power PC board connections when space is at a premium. Options include through-hole, surface mount and can be customized for mixed technology, press-fit and pass-through terminations. The pins and blades are available in various sizes, counts, amperages, and plating.

The 2.0mm can accommodate a maximum current of 3A, with a 30 to 22 AWG wire size, and up to 40-positions. Antenk offers 2.0mm pitch female headers in either vertical or right-angle orientation at high quality and affordable China-quoted price that snuggly fits with the pins of a male header and acts as a receptacle.

The 2.0mm pitch female headers are commonly found in PC`s and are also made to work in Arduino boards, Arduino Pro and Arduino Mega with either single or double-row female headers, facilitating connections for programming and incorporation into other circuits. They have the perfect height for clearing the USB-B connector and great for stacking multiple shields.

Female header always called as [Header connector", Antenk provide widely range of header connector, from 2.54mm (.100″ inch) pitch to 1.0mm (.039″ inch) pitch. The number of pins (contacts) is from 2 to 40 pins per orw. There are three type: Straight (Dip Vertical), Right angle, SMT (surface mount).

If you can not find the items you interest from above items, welcome to contact us, and you will always get fully responsive from us.

Applications of 2.0mm Pitch Female Headers
Electronics:
LED applications
Arduino boards
Solar applications
Weighing systems

Appliances:
Air conditioner
Refrigerator
Microwave oven
Washing machine
Water heater
Shower toilet
Washer/Dryer
Stove
Automotive, Heavy Duty Military and Marine
For densely packed equipment requiring weight reduction and downsizing and for tough and harsh conditions.
Vehicle infotainment
Computer peripherals
Battery Connections
Battery connections rely on the ability of the current to pass reliable and solid current. This prevents overheating in the circuit and voltage drop.
Rechargeable battery packs
Battery balancers
Battery eliminator circuits
Medical Diagnostic and Monitoring equipment
Heart monitors

Communications

Telecoms
Datacoms

Mount Type: Through-hole vs Surface Mount
At one side of this female header is a series of pins which can either be mounted and soldered directly onto the surface of the PCB (SMT) or placed into drilled holes on the PCB (THM).

Through-Hole (Poke-In)
Best used for high-reliability products that require stronger connections between layers.
Aerospace and military products are most likely to require this type of mounting as these products experience extreme accelerations, collisions, or high temperatures.
Useful in test and prototyping applications that sometimes require manual adjustments and replacements.
2.0mm vertical single row female header, 2.0mm vertical dual row female header, 2.0mm right-angle single row female header and 2.0mm right-angle dual row female header are some examples of Antenk products with through-hole mount type.

Surface-Mount
The most common electronic hardware requirements are SMT.
Essential in PCB design and manufacturing, having improved the quality and performance of PCBs overall.
Cost of processing and handling is reduced.
SMT components can be mounted on both side of the board.
Ability to fit a high number of small components on a PCB has allowed for much denser, higher performing, and smaller PCBs.
2.0mm Right-angle Dual Row female header, 2.0mm SMT Single row female header and 2.0mm SMT Dual row female header are Antenk`s SMT female headers.

Soldering Temperature for 2.0mm Pitch Female Headers
Soldering SMT female connectors can be done at a maximum peak temperature of 260°C for maximum 60 seconds.

Orientation/Pin-Type: Vertical (Straight) and Right-Angle
2.0mm pitch female headers may be further classified into pin orientation as well, such as vertical or straight male header or right-angle female header.
Vertical or Straight Female Header Orientation
One side of the series of pins is connected to PCB board in which the pins can be at a right-angle to the PCB surface (usually called "straight" or [vertical") or.

Right-Angle Female Header Orientation
Parallel to the board's surface (referred to as "right-angle" pins).
Each of these pin-types have different applications that fit with their specific configuration.

PCB Connector Stacking
For 2.0mm pitch female headers, the orientation is either offered as vertical or right-angle, which are options. Elevated sockets/female headers can be available upon request.

Profile Above PCB
This type of configuration is the most common way of connecting board-to-board by a connector. First, the stacking height is calculated from one board to another and measured from the printed circuit board face to its highest insulator point above the PCB.

Elevated Sockets/Female Headers
Elevated Sockets aka Stacked sockets/receptacles or Mezzanine are simply stacked female headers providing an exact distance requirement between PCBs that optimizes electrical reliability and performance between PCB boards.

Choosing this type of stacking configuration promotes the following benefits:
Connector Isolation - the contacts are shrouded preventing cable connection mishaps and good guidance for the mating header connectors.
For off-the-shelf wireless PCB module, stacking height is optimized with elevated sockets.
Offers superior strength and rigidity.
Polarisation prevents users from inverted insertion.

Single, Dual or Multiple Number of Rows
For a 2.0mm straight or vertical female header, the standard number of rows that Antenk offers ranges from 1 to 2 rows. However, customization can be available if 3, 4 or n number of rows is needed by the customer. Also, the number of contacts for the single row is about 2-40 pins while for dual row, the number contacts may vary from 2-80 pins.

Pin Material
The pins of the connector attached to the board have been designed with copper alloy. With customer`s demand the pins can be made gold plated.

Custom 2.0mm Pitch Female Headers
Customizable 2.0 mm pitch female headers are also available, making your manufacturing process way faster as the pins are already inserted in the headers, insulator height is made at the right size and the accurate pin length you require is followed.
Parts are made using semi-automated manufacturing processes that ensure both precision and delicacy in handling the headers before packaging on tape and reel.

Tape and Reel Packaging for SMT Components
Antenk's SMT headers are offered with customizable mating pin lengths, in which each series has multiple number of of circuits, summing up to a thousand individual part number combinations per connector series.
The tape and reel carrier strip ensures that the headers are packaged within accurately sized cavities for its height, width and depth, securing the headers from the environment and maintaining consistent position during transportation.
Antenk also offer a range of custom Tape and reel carrier strip packaging cavities.

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ShenZhen Antenk Electronics Co,Ltd , https://www.antenk.com