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Membrane Switch

Waterproof flexible membrane switches  or more precisely a standard membrane switch assembly is comprised of several flexible layers that make up a complete switch package. This assembly can have as few as one active area (key or button) to several dozen active areas. A membrane switch and panel is an interface between man and machine, which enables an operator to communicate with equipment, instrumentation, or machinery. Subsequently, this allows the operator to communicate with the device, issuing commands and/or performing other operations. The operator presses the membrane control panel when he or she wants to control the device.

Construction of Membrane Switch

Graphic Overlay – PET/PC is usually the overlay material of choice due to its fantastic chemical resistance and flex property. We are professional membrane switch company in China.Komkey offers microwave membrane keypad customized design services such as digital printing, screen-printing, or apply both methods to ensure you get the right colors, textures and finish your design requirements.

Adhesive Overlay – This adhesive layer sticks the membrane overlay to the top circuit layer, and is usually an acrylic adhesive. The material is the same as the fourth layer. Only the thickness is maybe different according to the actual situation.

 

Top Circuit Layer – The material of this layer is specific. It is a 0.1mm thickness thermostable PET film printed with conductive silver ink and also dielectric oil, which used for fastening metal domes.

 

Circuit Spacer – This layer separates the top circuit from the bottom circuit so that the touch membrane remains normally break until the membrane switch keypad is pressed. The circuit spacer is a polyester spacer with adhesive on both sides.

 

Lower Circuit Layer – This layer is a 0.1mm-0.25mm thickness thermostable PET film printed with conductive silver ink and also dielectric oil. This layer terminates as a flexible tail that serves as an interconnector to controller PCBs or other IC.

 

Rear Adhesive – This adhesive layer bonds the entire membrane switch to the product surface, housing, or to a rigid support panel. Komkey, a membrane switch keypad supplier, can use the proper adhesive type and thickness to bond your membrane switch to your equipment.    

 

Membrane Switch Specification

Mechanical Properties:

Life Expectancy

Flat type ≥ 5 million times,

 

Tactile type ≥ 1 million times

 

Operation Force Flat Type 57-284g ,Tactile Type 170-397g

Dome Rebound Time ≤6ms

Tail Bending Performance ≤180 °

Switch Stroke Flat 0.1~0.5mm,Tactile 0.6~1.5mm

Vibration 20G's max.

Thickness 0.7~1.5 mm

Electrical Properties:

Rated Voltage ≤50V DC

Rated Current ≤ 100mA

Operating Power ≤1W

Insulation Resistance ≥100MΩ (250V DC)

Loop Resistance

10Ω ~ 2kΩ

 

(Depending on the design)

 

Contact Resistance

0.5 ~ 5Ω

 

(Depending on wire length and the materials)

 

Wire Lead Resistance <1Ω/cm

Base Material Voltage Withstand 1500V DC

Environmental Properties:

Operation Temperature -40°C to +80°C (-40°to 176°F)

Storage Temperature -40°C to +85°C (-40°to 185°F)

Atmospheric Pressure 86 ~ 106 kPa

Humidity +40°C, 90%~95%RH for 240 Hours

Why Choose Our Membrane Switch?

Our Membrane Switch Pad Advantages

 

Beautiful appearance, Variety color printing.

 

Small size, light in weight, good tactility, Long life span.

 

moisture-proof, dustproof, waterproof, anti-corrosion, and erosion of harmful gases proof.

 

Easy to operate, intuitive, safe and reliable

 

Cost-effective, convenient installation

 

Komkey is one of the reliable membrane switches manufacturers offering custom membrane switch panel design service  

 

Customized specification is available, the Smaller volume can be accepted.

 

Customized logo/Brand/Contact way can be printed in the overlay for advertisement.

If you wan to buy membrane switch,please contact us.

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Three-Position Switch Automatic Assembly Line

The three-position switch assembly machine is used to complete the automatic loading and assembly of the fulcrum, and other parts of the three-position switch, and to detect whether the assembly process is missing or not, and to unload the OK and NG products.

 

Machine feature of Three-Position Switch Automatic Assembly Line

The installation of the product is great and no damage.

The HMI can adjust and record the data of assembly process.

Machine parameter of Three-Position Switch Automatic Assembly Line

Error rate of NG products<0.05%

Machine life:10 years

Noisy<75dB

 

Yiheda automation, one of custom automation companies, specializes in designing and manufacturing the China automatic production line to customers. We welcome merchants from all over the world to cooperate with our factory for mutual benefit and win-win, and jointly create a better future.

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Three-Position Switch Automatic Assembly Line

The three-position switch automatic assembly line is used to complete the automatic loading and assembly of the fulcrum, and other parts of the three-position switch, and to detect whether the assembly process is missing or not, and to unload the OK and NG products.

 

Machine feature of Three-Position Switch Assembly Machine

The installation of the product is great and no damage.

The HMI can adjust and record the data of assembly process.

Machine parameter of Three-Position Switch Automatic Assembly Line

Error rate of NG products<0.05%

Machine life:10 years

Noisy<75dB

 

Dongguan Yiheda Automation Co.,Ltd, established in 2010, is an expert custom automation company, specializes in designing and manufacturing the custom automation solution to customers. If you are looking for China automatic production line, just contact us!

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Low Voltage Switch Assembly Machine

Introduction of Low Voltage Switch Assembly Machine

The low voltage switch assembly machine automated production machinery completes multiple functions such as semi-finished product feeding, semi-finished product assembly, finished product detection and OK product sorting, etc. By utilizing the joint robot technology to implement the transfer and pickup of the product, which only needs to operate the machine when it is lack of material, stuck or alarmed. After the abnormal switch is automatically repaired, it and the qualified switch will be marked with the relevant code in the RTID tray system.

 

Machine Features of Low Voltage Switch Assembly Machine

  1. The operator only needs to operate the machine when it is lack of material, stuck or alarmed.
  2. Automatically sort out the qualified product and detect the abnormal one.
  3. With the HMI control system and alarm information, it can switch the running mode( Automation or Manual)

 

Machine parameter of Low Voltage Switch Assembly Machine Automated Production Machinery

Capacity: Xt1

Station: 5

Power: AC380V

Power: 10KW

Floor space: 1500*2800*1800

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High Voltage Electrical Product Mould

High Voltage Electrical Product Mould Features

 

 

Mainly for pressure molding, the cavity pressure should be considered as small as possible when designing the parting surface. The exhaust should be smooth, the position of the discharge, the shape, and the flow of the material should be fully considered, especially for some small ribs. For the movable exhaust, there must be a overflow trough. Vacuuming structure, the mold temperature balance is consistent. The appearance and strength of the product are guaranteed.

 

High Voltage Electrical Product Mould List

 

 

Our high voltage electrical product mould mainly refers to circuit breaker mold, fuse mold, switch box mould, transformer mold, electric control box mold, etc. The product has high insulation, high temperature resistance, long service life and strong plasticity.

 

Zhejiang Aobang Technology Co., Ltd. is one of the most professional sheet molding compound manufacturers in China, and we hope to gain recognition and support from our customers and to develop mutual cooperation.8466583653?profile=original8466583884?profile=original

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1.Preface
Monolithic tiny switch power supply integrated circuit has the advantages of high integration, high cost performance, the simplest peripheral circuit and the best performance index. It can form an isolated switching power supply without power frequency transformer with high efficiency. From 1994 to 2001, a series of monolithic switching power supply products, such as TOPSwitch, TOPSwitch II, TOPSwitch FX, TOPSwitch GX, TinySwitch, TinySwitch II and so on, have been successively introduced in the world. They have become the preferred integrated circuits for developing medium and small power switching power supply, precision switching power supply and switching power supply modules.
High frequency transformer is an important part of switching power supply for energy storage and transmission. The performance of medium and high frequency transformer in monolithic switching power supply not only has a great influence on power efficiency, but also has a direct bearing on other technical indicators and electromagnetic compatibility (EMC). Therefore, a high efficiency high frequency transformer should have low DC loss and AC loss, low leakage inductance, small distributed capacitance of winding itself and small coupling capacitance between windings. The main points of its design are described below.

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2. Reducing Loss of High Frequency Transformer
2.1 DC Loss
DC loss of high frequency transformer is caused by copper loss of coil. In order to improve the efficiency, we should choose the thicker conductor as far as possible, and take the current density J = 4 ~ 10A / mm2.
2.2 AC Loss
AC loss of high frequency transformer is caused by skin effect of high frequency current and loss of magnetic core. High frequency current always tends to flow through the surface when passing through the conductor. This will reduce the effective flow area of the conductor and make the AC equivalent impedance of the conductor much higher than the copper resistance. The penetration ability of high frequency current to conductor is inversely proportional to the square root of switching frequency. In order to reduce AC copper impedance, the conductor radius should not exceed twice the depth of high frequency current. The relationship between the wire diameter and switching frequency is shown in Figure 1. For example, when f = 100kHz, the diameter of conductor is 0.4mm in theory. But in order to reduce the skin effect, the thinner wires can actually be wound side by side, instead of a thick wire.
The core loss of the high frequency transformer also reduces the efficiency of the power supply. The AC flux density of the transformer can be estimated by the following formula:
 
Bac=(0.4pi*Np*Ip*Krp)/2delta
In formula B: BAC is AC flux density in T;
NP and IP are primary turns and primary peak current respectively.
KRP is the ratio of primary pulsating current to peak current.
Delta is the air gap width of the core in cm.
To design a high frequency transformer working in continuous mode, the typical value of BAC is about 0.04-0.075T. The loss of ferrite core at 100kHz should be less than 50mW/cm3.
3. Reducing Leakage Inductance of High Frequency Transformer
Leakage inductance must be minimized in the design of high frequency transformers. Because the larger the leakage inductance, the higher the peak voltage amplitude, the greater the loss of the drain clamp circuit. This will inevitably lead to lower power efficiency. For a high frequency transformer which meets the insulation and safety standards, its leakage inductance should be 1%-3% of the primary inductance when the secondary circuit is open. In order to reach the target below 1%, it will be difficult to achieve in the manufacturing process. The following measures can be taken to reduce leakage inductance:
1) Reduce turn number NP of primary winding;
2) Increase winding width (e.g. select EE core to increase skeleton width b);
3) Increase the ratio of height to width of windings;
4) Reduce the insulation layer between the windings;
5) Increase the coupling between windings.
3.1 Reduce the number of primary winding turns and increase the ratio of height to width.
 
The leakage inductance can be effectively reduced by choosing suitable core shape, reducing the number of primary turns and increasing the ratio of height to width. The leakage inductance is proportional to the square of the primary turns. The size of the selected core should be large enough to enable the primary winding to be wound into two or less layers, so that the primary leakage inductance and distributed capacitance can be minimized. Keep in mind that it is not suitable to use the core of a short and fat window because of its large size, small ratio of height to width and large leakage inductance. It corresponds to POT, RM, PQ and some E-type cores. It is suggested to use thin and high core, which has a high aspect ratio and corresponds to EE, ETD, EI and EC cores.
Triple Insulated Wire (Triple Insulated Wire) is a newly developed high performance insulated conductor in recent years. The conductor has three insulating layers, with core wires in the middle. Its insulating layer is golden polyamide film, which is called "gold film" abroad. The total thickness of the insulation layer is only 20 to 100 microns, but it can withstand several kilometers of pulse high voltage. Triple insulated wires are suitable for high frequency transformer windings of micro motor windings and miniaturized switching power supply in the field of advanced technology and national defense. Its advantages are high insulation strength (any two layers can withstand the safe voltage of AC3000V), no barrier layer is needed to ensure safe margin, and no insulating tape layer is used to winding between layers. The volume of the high frequency transformer winded with it can be reduced by half compared with that winded with enameled wire. An optimum design scheme of high frequency transformer is to use ordinary high strength enameled wire to winding primary and feedback stage, and triple insulated wire to winding secondary stage. In this way, the leakage inductance can be greatly reduced, and the volume of high frequency transformer can be reduced by 1/2 to 1/3.
 
3.2 Winding Arrangement
 
To reduce leakage inductance, windings should be arranged in concentric manner. As shown in Figure 2, secondary windings in Figure 2 (a) are made of triple insulated wires. In Fig. 2 (b), all enameled wires are wound. However, a safe margin should be set aside and a reinforced insulation layer should be added between the secondary winding and the feedback winding. For multi-output switching power supply, the secondary winding with the highest output power should be close to the primary winding to increase coupling and reduce magnetic leakage. When the number of secondary turns is very small, in order to increase the coupling with the primary, it is advisable to use multi-strand parallel winding to evenly distribute on the whole skeleton to increase the coverage area. If conditions permit, foil winding as secondary is also a good way to increase coupling.
In the process of switching power supply, the distributed capacitance of winding is charged and discharged repeatedly, and the energy on it is absorbed. Distributed capacitance not only reduces the efficiency of power supply, but also constitutes LC oscillator with distributed inductance of winding, which will produce ringing noise. The effect of distributed capacitance of primary winding is particularly significant. In order to reduce the distributed capacitance, the length of the conductor per turn should be reduced as much as possible, and the initial end of the primary winding should be connected with the drain pole, and a part of the primary winding should be used to shield and reduce the coupling degree of the adjacent windings.
4. Suppressing Audio Noise of High Frequency Transformer
4.1 Suppression of Audio Noise of High Frequency Transformer
The attraction between EE or EI cores of high frequency transformer can displace the two cores. The force of gravity or repulsion between winding currents can also offset the coil. In addition, mechanical vibration can lead to periodic deformation. All these factors will make the high frequency transformer produce audio noise when it works. The audio noise frequency of single-chip switching power supply under 10W is about 10kHz ~ 20kHz.
In order to prevent the relative displacement between magnetic cores, epoxy resin is usually used as binder to bond the three contact surfaces (including the central column) of two magnetic cores. But the effect of this rigid connection is not ideal. Because it can't minimize the audio noise, and there are too many adhesives, the magnetic core is easy to break when it is subjected to mechanical stress. Recently, a special Glassbeads cementing agent has been used abroad to bond ferrite cores such as EE and EI, and the effect is very good. The binder is a mixture of glass beads and adhesives in a ratio of 1:9. It can be cured when it is placed in a temperature environment above 100 C for one hour. Its function is similar to that of ball bearings. After curing, each core can still independently deform or displace in a small range, while the overall position remains unchanged, which has a restraining effect on deformation. The internal structure of high frequency transformer bonded with glass bead adhesive is shown in Fig. 3. This technology can reduce the audio noise by 5 dB.
4.2 Shielding of High Frequency Transformer
In order to prevent the leakage magnetic field of high frequency transformer from interfering with adjacent circuits, a copper sheet can be surrounded outside the transformer to form a shielding band as shown in Fig. 4. The shielding belt is equivalent to a short circuit ring, which can restrain the leakage magnetic field. The shielding belt should be connected to the ground.
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