The safety and reliability of the power supply system, including the power supply, is the key to ensuring all energized products. Therefore, engineers attach particular importance to the circuit protection of the power supply and power supply system. The concept of smart home is gradually accepted by most consumers, and it has begun to actively understand the hot smart home products in the market. Smart home consists of the following aspects: lighting, socket control system; background music system; electric curtains, electric doors and windows; audio and video systems; security systems; integrated wiring systems. Among them, the power supply system is the heart of all these smart devices and is the guarantee for the normal operation of each control system. In this article, Xiao Shuo analyzes the design ideas of the smart home power supply system circuit protection solution in detail for the selection of power protection devices.
First of all, we all know that power is used to convert electrical energy from one form to another so that the device can operate correctly. Common power supply examples include: AC-to-DC converters that convert AC voltages to stable DC voltages; DC-to-DC converters that convert battery power to a desired voltage level. Among them, the power supply of the smart home mainly supplies power for the main control circuit, the signal isolation, and the display circuit. The power scheme adds surge protection circuitry at the input port to ensure the reliability and stability of the power circuit operation.
The coordination between industries and the harmonization of standards are still not mature enough. This requires that only the home systems consider the security features of products more. In addition, the installation and wiring of smart homes may be one-time, so the system is ideally high-end. Reliability, timely protection against lightning surges, grid overvoltage, and static electricity that may occur during application. In practical applications, the power supply interface and signal interface of the smart home system are vulnerable to over-voltage and over-current faults such as lightning surges, grid voltage fluctuations, static and aging short circuits, and wiring errors, resulting in system failure or damage. In order to improve the security and reliability of the system, it is necessary to consider adequate protection of its corresponding interface during design.
After understanding the protection points, it is necessary to understand the circuit protection components used in the surge protection circuit. The circuit protection devices used for power protection include the lightning-restricting ceramic discharge tube and TVS diode of SOCAY. , varistors, and over-current protection devices PTC resettable fuses, including ceramic discharge tube, TVS diodes and varistors are overvoltage devices, the following is the selection of points:
Overvoltage protection device selection should pay attention to the following four points:
1) Selection of off voltage Vrwm. The general shutdown voltage must be at least 10% higher than the maximum operating voltage of the line;
2) Selection of clamping voltage VC. VC refers to the voltage across the TVS in the ESD strike state, which must be less than the maximum transient voltage that can be protected by the circuit being protected;
3) Selection of surge power Pppm. Different power, different protection time, such as 600w (10/1000μs); 300W (8/20μs);
4) Selection of inter-electrode capacitance. The higher the operating frequency of the protected components, the smaller the capacitance of the TVS.
Of particular concern is the selection of TVS diodes. Because TVS diodes are unidirectional and bidirectional, engineers must choose whether to use bidirectional or unidirectional TVS depending on the application interface. The DC power interface generally uses a unidirectional TVS; the AC power interface and the communication interface generally use bidirectional TVS.
PTC resettable fuse selection points:
1. Keep the current slightly larger than the user's normal operating current.
2. Vmax must be greater than or equal to the user's maximum operating voltage.
3. Imax must be greater than the maximum fault short-circuit current.
SOCAY Shukai circuit protection components provide protection against short circuit and overload conditions. They have a wide range of choices in form factors, current ratings, voltage ratings, current interruption capacity, and mounting options, giving design engineers flexibility in design.
Metal oxide varistors (MOVs) on the entire power input provide overvoltage clamping protection. They are cost-effective and minimize the transient energy that can be passed into downstream electronics. The selection of metal oxide varistors is based on a series of parameters including nominal voltage, peak pulse current, device size, and wire configuration.
MOVs and fuses need to form a coordinated solution so that the energy required to blow the fuse element (also called the "i2t" value) is high enough to allow the MOV to operate without the fuse under surge voltage conditions. Trip. In other words, the fuse should not be opened under the condition that the surge energy is clamped and dissipated. It should only trip in the event of an overload or short circuit condition.
Even with varistors in the AC input, there are instances where the circuit is not immune to surge events. In these cases, a TVS diode can be added to the input circuit of the inverter pole. This TVS diode provides secondary protection against transients. The power "passed" from the varistor will be further reduced by this TVS diode to a level that will not defeat the circuit.
Shuo Kai Electronics has a wealth of product lines and excellent customer service capabilities, through the provision of the latest generation of advanced technology products to meet the needs of design engineers and procurement staff. We have an advanced EMC laboratory and will have professional FAE engineers to follow up on the latest design projects for our customers to provide the highest level of circuit protection solutions and circuit protection components that are most suitable for product protection. Shuo Kai Electronics is updated daily and socay.com has a complete product catalog, data manuals, industry news, application solutions, testing services, and more. Online customer service is always available for customers to answer questions.
3. Chemical Industry,
4. Electroplating equipment
5. Precision instruments
6. Environmental protection equipment
7. Auto industry
8. Medical and Sports industry
Ta2 :M(anneal) thickness=0.3-25.0mm tensile strength(Rm/Mpa):>=400
Tc4 :M(anneal) thickness=0.8-2.0mm/>2.0-5.0mm/>5.0-10.0mm/10.0-50.0mm tensile strength(Rm/Mpa):>=895
First of all, we all know that power is used to convert electrical energy from one form to another so that the device can operate correctly. Common power supply examples include: AC-to-DC converters that convert AC voltages to stable DC voltages; DC-to-DC converters that convert battery power to a desired voltage level. Among them, the power supply of the smart home mainly supplies power for the main control circuit, the signal isolation, and the display circuit. The power scheme adds surge protection circuitry at the input port to ensure the reliability and stability of the power circuit operation.
The coordination between industries and the harmonization of standards are still not mature enough. This requires that only the home systems consider the security features of products more. In addition, the installation and wiring of smart homes may be one-time, so the system is ideally high-end. Reliability, timely protection against lightning surges, grid overvoltage, and static electricity that may occur during application. In practical applications, the power supply interface and signal interface of the smart home system are vulnerable to over-voltage and over-current faults such as lightning surges, grid voltage fluctuations, static and aging short circuits, and wiring errors, resulting in system failure or damage. In order to improve the security and reliability of the system, it is necessary to consider adequate protection of its corresponding interface during design.
After understanding the protection points, it is necessary to understand the circuit protection components used in the surge protection circuit. The circuit protection devices used for power protection include the lightning-restricting ceramic discharge tube and TVS diode of SOCAY. , varistors, and over-current protection devices PTC resettable fuses, including ceramic discharge tube, TVS diodes and varistors are overvoltage devices, the following is the selection of points:
Overvoltage protection device selection should pay attention to the following four points:
1) Selection of off voltage Vrwm. The general shutdown voltage must be at least 10% higher than the maximum operating voltage of the line;
2) Selection of clamping voltage VC. VC refers to the voltage across the TVS in the ESD strike state, which must be less than the maximum transient voltage that can be protected by the circuit being protected;
3) Selection of surge power Pppm. Different power, different protection time, such as 600w (10/1000μs); 300W (8/20μs);
4) Selection of inter-electrode capacitance. The higher the operating frequency of the protected components, the smaller the capacitance of the TVS.
Of particular concern is the selection of TVS diodes. Because TVS diodes are unidirectional and bidirectional, engineers must choose whether to use bidirectional or unidirectional TVS depending on the application interface. The DC power interface generally uses a unidirectional TVS; the AC power interface and the communication interface generally use bidirectional TVS.
PTC resettable fuse selection points:
1. Keep the current slightly larger than the user's normal operating current.
2. Vmax must be greater than or equal to the user's maximum operating voltage.
3. Imax must be greater than the maximum fault short-circuit current.
SOCAY Shukai circuit protection components provide protection against short circuit and overload conditions. They have a wide range of choices in form factors, current ratings, voltage ratings, current interruption capacity, and mounting options, giving design engineers flexibility in design.
Metal oxide varistors (MOVs) on the entire power input provide overvoltage clamping protection. They are cost-effective and minimize the transient energy that can be passed into downstream electronics. The selection of metal oxide varistors is based on a series of parameters including nominal voltage, peak pulse current, device size, and wire configuration.
MOVs and fuses need to form a coordinated solution so that the energy required to blow the fuse element (also called the "i2t" value) is high enough to allow the MOV to operate without the fuse under surge voltage conditions. Trip. In other words, the fuse should not be opened under the condition that the surge energy is clamped and dissipated. It should only trip in the event of an overload or short circuit condition.
Even with varistors in the AC input, there are instances where the circuit is not immune to surge events. In these cases, a TVS diode can be added to the input circuit of the inverter pole. This TVS diode provides secondary protection against transients. The power "passed" from the varistor will be further reduced by this TVS diode to a level that will not defeat the circuit.
Shuo Kai Electronics has a wealth of product lines and excellent customer service capabilities, through the provision of the latest generation of advanced technology products to meet the needs of design engineers and procurement staff. We have an advanced EMC laboratory and will have professional FAE engineers to follow up on the latest design projects for our customers to provide the highest level of circuit protection solutions and circuit protection components that are most suitable for product protection. Shuo Kai Electronics is updated daily and socay.com has a complete product catalog, data manuals, industry news, application solutions, testing services, and more. Online customer service is always available for customers to answer questions.
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Key Word: Titanium Sheet MOQ:100 Kilogram
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Standard: JIS, AISI, ASTM, GB, DIN, EN, etc.
Item Name: titanium plate/titanium sheet
Material: GR1,GR2,GR3,GR4,GR5,GR7,GR12,GR23
Standard: ASTM B265, ASTM F136, ASTM F67, ASTM 4928
Width: 400-3000mm (Hot rolled) 400-1300mm(cold rolled)
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Application
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4. Electroplating equipment
5. Precision instruments
6. Environmental protection equipment
7. Auto industry
8. Medical and Sports industry
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Ta2 :M(anneal) thickness=0.3-25.0mm tensile strength(Rm/Mpa):>=400
Tc4 :M(anneal) thickness=0.8-2.0mm/>2.0-5.0mm/>5.0-10.0mm/10.0-50.0mm tensile strength(Rm/Mpa):>=895
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