Compared with the traditional resistive touch technology with the highest market share, the capacitive touch technology brings many advantages to users, including: up to 97% penetration rate and more realistic color rendering bring us better The visual enjoyment; the touch function only needs to be touched or even not actually in contact with the screen, which provides users with easier and flexible maneuverability; a longer service life, the touch life of the capacitive screen is about 200 million times. Two times the four-wire resistive screen (one million times) and five times the five-wire resistive screen (40 million times).
The signal detected by capacitive touch technology comes from the slight changes caused by touch. According to different working principles, it can be roughly divided into surface capacitive touch technology (SCT, SurfaceCapaciTIveTouch) and projected capacitive touch technology (PCT, ProjectedCapaciTIveTouch). The former is commonly used in large-scale outdoor applications, such as public information platforms (POI) and public service (sales) platforms (POS) and other products, while the latter is popular because of Apple's multi-touch mobile phone iPhone.
From the point of view of the development process of touch technology, the earliest market to introduce touch technology is the field of industrial control. Its purpose is to integrate the complicated and large-area mechanical equipment control panel into a single window and multiple paging screens. Large size resistive screen. However, the shortcomings of the life and resistance of the resistive screen can not meet the needs of the industrial control field. Therefore, when the large-sized SCT came out, the high-end equipment machine immediately switched to the SCT scheme. Until around 2003, due to the reduction in the manufacturing cost of resistive screens, small sizes began to be used in PDA, GPS and other portable products, and touch technology officially entered the consumer market. In 2006, the iPhone adopted a small-sized PCT, and its excellent optical characteristics and multi-touch function set off a wave, becoming the most high-profile touch technology in recent years.
From the above, it is not difficult to find that at present, the consumer market with a small size as the mainstream has only two types of touch technology: resistive and projected capacitive. The former has low cost, but its poor optical performance and tolerance have long suffered. The market is criticized; although the latter has many advantages, but the suppliers of real energy production are few, and the price is naturally quite expensive, so that it is only found in a few high unit price products.
The reason why the SCT is rarely used in the small-size market is mainly due to cost. SCT panel manufacturers have long lacked key optical coating technologies and must be outsourced for processing, while SCT touch ICs are controlled by a few technology manufacturers and their selling prices remain high. In addition, unlike resistive screens that can be freely matched with resistive ICs, SCT screens and ICs must have excellent compatibility to work stably. The aforementioned factors make the price of SCT in small-size consumer applications not far from that of PCT, which is naturally difficult for customers to adopt.
However, compared with resistive technology, SCT can greatly improve its defects; compared with PCT, SCT technology is more mature and stable, and can be introduced into mass production. Therefore, we can reasonably deduce that when the overall cost of SCT is greatly reduced due to the strategic alliance of industry members and the integration of technical resources, SCT will have the opportunity to become the best solution for small-scale consumer applications.
The following will briefly introduce the basic principles of PCT and SCT, and compare the advantages and disadvantages of these two technologies.
Projected capacitive touch technology
PCT is built on the concept of matrix. In the touch screen production part, the ITO of the PCT panel is etched to generate a specific pattern, the purpose is to improve the SNR value of each touch point and enhance the accuracy of recognition. By copying the aforementioned pattern in the X-axis and Y-axis directions several times (the number of times depends on the screen size), a PCT matrix similar to a keyboard is formed. Figure 1 is the most common diamond pattern at present.
Figure 1: The diamond pattern layout of the projected capacitive screen.
The orange diamond pattern in Figure 1 forms ITO wires in the X-axis direction (m total), and the green diamond pattern forms ITO wires in the Y-axis direction (n total); the PCT controller will drive these wires in turn to detect Test whether there is a change in capacitance due to touch.
Figure 2: The detected waveform on the X2 wire before and after the PCT equivalent RC circuit and finger touch.
Take the simplest RC oscillation scheme as an example. We simplified the equivalent circuit of the X2 wire in the X axis to Figure 2 to form an RC circuit composed of n Rp and n Cp, where Rp and Cp represent the equivalent ITO segment internal resistance and PCT, respectively The inherent capacitance value of each node (the intersection of XY axes). When a finger approaches or touches the screen, a capacitance (Cf) is added to the screen; for this RC oscillating circuit, the appearance of Cf means that the period of oscillation becomes longer and the frequency decreases. By calculating the change of the oscillation period and frequency on the X2 wire before and after the finger touch, the PCT controller can recognize the position of the touch, and even the distance between the finger and the screen (that is, provide Z-axis information).
Surface capacitive touch technology
The SCT panel is a piece of uniformly coated ITO layer, and the four corners of the panel have an outlet (UR, UL, LR, LL) connected to the SCT controller. In order to be able to detect the exact position of the touch point, the SCT controller must first establish a uniform electric field on the SCT panel. This part of the work is achieved by the IC's internal driving circuit charging the panel. When a finger touches the screen, a small amount of current will flow. At this time, the sensing circuit in the IC will separately analyze the current on the four lines and calculate the XY coordinates of the touch point according to the formula in Figure 3. In order to overcome the influence of interference, hardware or software filters can be used to process the calculated coordinate values.
The biggest difference between PCT and SCT is that PCT has the opportunity to achieve multi-touch (MulTI-touch), while SCT can only achieve single-touch; PCT seems to be better than SCT, but in fact This is not entirely true.
The working principle of PCT is not complicated, so it is not difficult to provide an exemplary prototype display; however, when engineers try to convert PCTDemoSet into a mass production plan and prepare for mass replication, various technical challenges will come. The main challenges include the following three aspects.
The weak signal to be detected (made into rough song) is susceptible to environmental influences and becomes unstable, resulting in inconsistent sensitivity of the touch function and even possible malfunctions. The change in capacitance due to touch is actually very susceptible to temperature and humidity. The current common countermeasure is to use timed automatic calibration to overcome this problem. In addition, other electrical appliances being used or other functions of the product itself (such as the RF of the mobile phone) will cause interference to the signal measurement. This part has to be achieved by improving the SNR, in the form of software or hardware; as of now, IC design industry still has room to work in this regard.
The yield rate of mass production needs to be improved. PCT technology inherently has the advantage of multi-touch. Therefore, since the iPhone came out, almost all the focus has been on the PCT. The touch industry, including touch screen manufacturers, IC design companies and solution developers have invested a lot Resources are being developed; but until now, there are still not many PCT commodities in the market. The problem is that the overall production yield is still not high, resulting in high costs. The reasons for the low yield rate are: the existing PCT controller is still not mature enough, and the self-adaptation ability in different application environments is still insufficient, so the touch menu is now unstable, in this case, the characteristics of the PCT panel (such as : The internal resistance and capacitance of the panel, etc.) are strictly limited to reduce the variables; due to the limitations of the capabilities of the PCT controller, the strict requirements for the consistency of the characteristics of the PCT panel are often the main reasons for the decline in yield.
Patent problem (made into rough song) Because many basic gestures and multi-finger touch functions have been patented and approved by some manufacturers, the multi-point advantages of PCT products cannot be exerted in many application fields (especially the main mobile phone market)! Overall, the PCT solution will certainly have a place in the market in the future because of its multi-touch advantages. But in the current situation, it is still not a mature solution.
In contrast, although the SCT technology also faces the problem that the capacitor signal is susceptible to interference in the design of the controller, but through the continuous efforts of the IC designer, the SCT scheme has been widely used in various environments. For example, the SCT touch IC (WT5750F) developed by Weiquan Electronics and Wanda Optoelectronics, through various adjustment mechanisms contained in the IC, can easily overcome the differences between various external environments and the size of the touch screen, and provide high quality steadily Touch experience. In addition, in order to meet the needs of hand-held devices for miniaturization of the organization, Weiquan Electronics' SCT touch IC has made great efforts to improve product integration, so it can meet the two important demands of miniaturization and cost reduction.
In addition to IC, SCT's touch screen structure is also simpler than PCT, and it is easier to overcome the problem of noise interference in hardware. In addition, through technological improvements and breakthroughs in key technologies, SCT's overall solution has a cost competitive advantage comparable to resistive ones. Taking the optical coating technology developed by Wanda Optoelectronics as an example, the light transmittance of the touch screen can be increased from 87% to 97%, and the reflectivity can be reduced from 12% to 2%. More importantly, the yield of optical processing can be controlled at more than 90%, and the steps of outsourcing processing can be eliminated, the technological autonomy and productivity can be improved, and the manufacturing cost can be greatly reduced.
SCT technology is one of the capacitive touch technologies, so it also retains many advantages of the capacitive type: "better visual enjoyment", "easier and more flexible handling" and "longer service life", etc .; plus SCT for Compared with PCT, the requirements of touch screen characteristics are relatively loose and the mass production technology is more mature, which makes it have the advantages of high yield and low cost. Moreover, in actual operation, users' demands for single-point selection, single-point gestures and handwriting functions are more urgent than multi-touch (MulTI-touch), and these functional requirements happen to be stable provided by SCT. Therefore, before the PCT solution matures (functional stability, patent issues, high production yield and low cost), the SCT solution is a touch solution that is very in line with market expectations.
REMOTE CONTROL SOCKET
Important Safeguards
When using any electrical appliance, in order to reduce the risk of fire, electric shock and/or injury to persons, basic safety precautions should always be follow8d. including:
• The appliance is for household and indoor use only.
• Before plugging in. check that the voitage on the rating label is the same as the mains supply.
• To protect against electric shock, do not immerse any part of the product in water or other liquid.
• This socket is intended for use by competent adults only and children should be supervised at all times.
• Do not use the socket for other than its intended use.
• This socket can be used by children aged from 8 years arxl above and persons with reduced physical, sensory or mental capabilities or lack of experience and knowledge if they have been given supervision or instruction concerning use of the appliance in a safe way and understand the hazards involved. Children shall not p<ay with the appliance Cleaning and user maintenance shall M be made by children without supervision.
• Children of less than 3 years should be kept away unless continuously supervised.
Children from 3 years and less than 8 years shall only switch on/off the appliance provided that it has been placed or installed in its intended normal operating position and they have been supervision or instruction concerning use of the appliance in a safe way and understand the hazards involved. Children aged from 3 years and less than 8 years shall not plug in. regulate and clean the appliance or perform user maintenance.
• Don't use this socket in the immediate surroundings of a bath, a shower or a swimming pool.
• In case of malfunction, do not try to repair the socket yourself, it may result in a fire hazard or electric shock
Do Not Exceed Maximum a680W
Place the LR44 batteries provided into the compartment in the back of the Remote Control, please insert as sho*/m in the back of the compartment to ensure the polarity is correct.
Programming Instructions
• Plug the Remoce Socket$($)lnto the wall socket(s) and switch on the mams supply, the red LED will flash every second.
• If the LED is not flashing press & hold the manual ON/OFF button for 5 seconds until it Hashes
•Press any ON switch on the Remote Control for approximately 2 seconds and the Remote Socket(s) learn the code. The LED will stop flashing top confirm the codehas been accepted.
• Any number of Remote Sockets can be programmed to one Remote Control ON button to create multiple switching.
• To programme o<her Remote Sockets on different Remote Control ON buttons repeat the prevous steps
• If the mains supply is turned off the Remote Sockets v/ill lose their code and it wil be necessary to re-pcogramme.
Operation:
• Plug your appliance(s) into the Remote Socket(s)
• Press the programmed ON or OFF button on the Remote Control to control the Remote Socket.
♦ The Remote Sockets can also be operated manually using its ON/OFF Button Trouble shooting
If a Remote Socket does not react to the Remote Control please check the followng:
♦ Low battery in tbo Remote Control
• Distance too large between the remote control and the recerver (ensure the range distance is no more than 20 clear Metres) and free from obstacle that may reduce the distance.
• If programming has not been successful, tum the power off and back on then follow the programming steps above.
How to decode
• Press the manual ONX)FF button for 5 seconds until the red LED flashes once per
second to confirm de-coding is successful
♦ Press the ALL OFF switch on the Remote Control for more than 3 seconds, the LED
flashes once per second to confirm (decoding successful.
Voltage: 240V-/50HZ
Max power rating: 3680W max.
Remote frequency:
Remote range:
Battery Type:
433.92MHz
230 Metres
Button Cell 2x1.5V LR44 =
Please check with your local waste management service authority regarding regulations for the safe disposal of the batteries. The batteries should never be placed G municipal waste.
Use a battery d^posal facility if available
M
For eioctncal products sold within the European Community. At the end of the electrical products useful life, it should not be disposed of wth household waste. Please recycle faaMies exist. Check with your Local Authonty or retailer for recycling advice.
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