+86-755-23579903
sales@emi-ic.com
Home
Products
Manufacturers
Send RFQ
Information
local
About us
Corporate culture
Company introduction
Contact us
Contact us
取消
Products
Manufacturers
Send RFQ
Information
About us
Contact us
未分类元器件 (287883)
开关 (284364)
连接器,互连器件 (3628430)
分立半导体产品 (222132)
继电器 (52115)
集成电路(IC) (596888)
电感器,线圈,扼流圈 (121274)
电位计,可变电阻器 (30239)
电池产品 (4319)
光电器件 (252007)
电源 - 外部/内部(板外) (246633)
电路保护 (213338)
音频设备, 产品 (9054)
变压器 (17477)
晶体,振荡器,谐振器 (513002)
电机,电磁阀,螺线管,驱动器板/模块 (17251)
风扇,热管理 (149940)
焊接,拆焊,返修产品 (7313)
电缆组件 (378447)
电缆,电线 (78488)
电缆,电线 - 管理 (92693)
存储卡、模块 (14273)
传感器,变送器 (128911)
五金件、紧固件和附件 (324088)
静电控制、ESD、洁净室产品 (6577)
测试与计量 (37508)
套件 (4505)
开发板,套件,编程器 (51394)
工业自动化与控制 (62430)
线路保护,配电,备用 (7771)
滤波器 (41812)
RF/IF,射频/中频和 无线射频识别 (107169)
计算机设备 (7913)
隔离器 (18981)
光学器件 (697)
光学检测设备 (1860)
电源 - 板安装 (255471)
网络解决方案 (16065)
嵌入式计算机 (4993)
磁性元件 - 变压器,电感器元件 (6195)
SIT3373AC-4B2-30NY345.600000
MEMS OSC VCXO 345.6000MHZ HCSL
SiTime
SIT3373AC-2B2-33NU224.000000
MEMS OSC VCXO 224.0000MHZ LVDS
SiTime
SIT3373AC-4B2-30NC280.550000
MEMS OSC VCXO 280.5500MHZ HCSL
SiTime
SIT3373AC-4B2-30NZ345.600000
MEMS OSC VCXO 345.6000MHZ HCSL
SiTime
SIT3373AC-2E2-25NU540.000000
MEMS OSC VCXO 540.0000MHZ LVDS
SiTime
SIT3373AC-4B2-33NZ307.695484
MEMS OSC VCXO 307.695484MHZ HCSL
SiTime
Molex
Molex
Weidmüller
Weidmüller
TE Connectivity AMP Connectors
TE Connectivity AMP Connectors
Littelfuse Inc.
Littelfuse Inc.
Sensata-BEI Sensors
Sensata-BEI Sensors
Omron Automation and Safety
Omron Automation and Safety
Panasonic Industrial Automation Sales
Panasonic Industrial Automation Sales
E-T-A
E-T-A
STMicroelectronics
STMicroelectronics
Keystone Electronics
Keystone Electronics
3M
3M
Eaton - Bussmann Electrical Division
Eaton - Bussmann Electrical Division
Bud Industries
Bud Industries
Brady Corporation
Brady Corporation
Amphenol Anytek
Amphenol Anytek
Mechatronics Fan Group
Mechatronics Fan Group
Mueller Electric Co
Mueller Electric Co
SIT3373AC-2E2-25NZ307.695484
SIT3373AC-1B2-28NZ240.000000
SIT3373AC-2E2-30NE500.000000
SIT3373AC-2E2-30NE614.000000
SIT3373AC-4B2-30NY245.760000
SIT3373AC-2E2-30NG281.000000
SIT3373AC-1E2-33NX364.800000
SIT3373AC-2E2-25NE281.000000
SIT3373AC-4B2-30NB614.000000
SIT3373AC-4B2-25NX622.080000
SIT3373AC-2E2-28NX622.080000
SIT3373AC-2B2-30NC222.527472
SIT3373AC-2E2-33NY614.400000
SIT3373AC-2E2-30NG270.000000
SIT3373AC-4B2-30NY625.000000
SIT3373AC-2E2-33NY622.080000
SIT3373AC-2E2-25NE625.000000
SIT3373AC-1B2-25NX540.000000
SIT3373AC-2E2-30NH614.000000
SIT3373AC-2B2-25NX281.000000
SIT3373AC-2B2-30NC500.000000
SIT3373AC-2E2-28NB250.000000
SIT3373AC-2B2-25NX364.800000
SIT3373AC-1E2-28NX614.000000
SIT3373AC-2E2-33NE223.000000
SIT3373AC-2E2-33NC500.000000
SIT3373AC-4E2-28NY500.000000
SIT3373AC-4B2-28NU250.000000
SIT3373AC-4E2-33NZ622.000000
SIT3373AC-4E2-25NG622.000000
SIT3373AC-2B2-30NZ240.000000
SIT3373AC-4B2-33NB223.000000
SIT3373AC-2E2-28NZ280.550000
SIT3373AC-4B2-25NY625.000000
SIT3373AC-4B2-28NU614.000000
SIT3373AC-4B2-25NZ270.000000
SIT3373AC-4E2-33NE625.000000
SIT3373AC-4B2-28NU625.000000
SIT3373AC-2B2-30NE432.000000
SIT3373AC-4E2-25NU240.000000
SIT3373AC-4B2-33NC281.000000
SIT3373AC-4E2-33NG345.600000
Mainstream Potentiometer Product Line Parameters
Mainstream Potentiometer Product Line Parameters
On 2024-05-11 in 0
Potentiometers are a type of variable resistor that are commonly used in electronic circuits to control the flow of electric current. They are widely used in a variety of applications, from audio equipment to industrial machinery. In this article, we will discuss the parameters that are important to consider when selecting a potentiometer for a mainstream product line.1. Resistance Value: One of the most important parameters to consider when selecting a potentiometer is the resistance value. Potentiometers are available in a wide range of resistance values, from a few ohms to several megaohms. The resistance value of the potentiometer should be chosen based on the specific requirements of the application. For example, a higher resistance value may be required for applications where precision control is needed, while a lower resistance value may be sufficient for simpler applications.2. Tolerance: Tolerance refers to the allowable deviation from the specified resistance value of the potentiometer. It is important to consider the tolerance of the potentiometer when selecting a product for a mainstream product line, as it can affect the overall performance and reliability of the circuit. Potentiometers with tighter tolerances are generally more expensive, but they offer greater precision and accuracy.3. Power Rating: The power rating of a potentiometer is the maximum amount of power that it can safely handle without overheating or failing. It is important to select a potentiometer with a power rating that is appropriate for the application. Choosing a potentiometer with a power rating that is too low can result in overheating and damage to the circuit, while choosing a potentiometer with a power rating that is too high can result in unnecessary cost and complexity.4. Mechanical Life: Mechanical life refers to the number of cycles that a potentiometer can withstand before it fails. It is important to consider the mechanical life of the potentiometer when selecting a product for a mainstream product line, as it can affect the overall reliability and longevity of the circuit. Potentiometers with higher mechanical life ratings are generally more durable and reliable, but they may also be more expensive.5. Temperature Coefficient: The temperature coefficient of a potentiometer is a measure of how its resistance changes with temperature. It is important to consider the temperature coefficient of the potentiometer when selecting a product for a mainstream product line, as it can affect the accuracy and stability of the circuit. Potentiometers with lower temperature coefficients are generally more stable and reliable, but they may also be more expensive.6. Size and Mounting: The size and mounting options of a potentiometer are also important parameters to consider when selecting a product for a mainstream product line. Potentiometers are available in a variety of sizes and mounting configurations, so it is important to choose a product that is compatible with the specific requirements of the application. For example, a smaller potentiometer may be required for applications with limited space, while a potentiometer with a specific mounting configuration may be needed for easy installation.In conclusion, when selecting a potentiometer for a mainstream product line, it is important to consider a variety of parameters, including resistance value, tolerance, power rating, mechanical life, temperature coefficient, and size and mounting options. By carefully evaluating these parameters and choosing a potentiometer that meets the specific requirements of the application, you can ensure the reliability and performance of your circuit.
Learn more >
How does Dehumidarity work?
How does Dehumidarity work?
On 2024-05-11 in 0
Dehumidifiers are essential appliances that help to reduce the level of humidity in the air, creating a more comfortable and healthy living environment. High humidity levels can lead to a variety of issues, including mold growth, musty odors, and damage to furniture and electronics. Dehumidifiers work by removing excess moisture from the air, helping to maintain a balanced humidity level in your home.There are two main types of dehumidifiers: refrigerant-based and desiccant-based. Refrigerant-based dehumidifiers work by drawing in warm, humid air through a fan and passing it over a set of cold coils. As the air cools, the moisture in the air condenses into water droplets, which are collected in a reservoir or drained through a hose. The dry air is then reheated and released back into the room. This process continues until the desired humidity level is reached.Desiccant-based dehumidifiers, on the other hand, use a desiccant material such as silica gel to absorb moisture from the air. The air is passed over the desiccant material, which absorbs the moisture and releases dry air back into the room. The moisture-saturated desiccant material is then heated to release the trapped moisture, allowing the dehumidifier to continue removing moisture from the air.Regardless of the type of dehumidifier, the key component is the moisture removal process. By removing excess moisture from the air, dehumidifiers help to prevent mold growth, reduce musty odors, and protect your home from damage. In addition to improving indoor air quality, dehumidifiers can also help to reduce energy costs by making your air conditioning system more efficient.When choosing a dehumidifier, it is important to consider the size of the area you need to dehumidify, as well as the level of humidity in your home. Dehumidifiers are rated by their capacity to remove moisture from the air, typically measured in pints per day. For smaller rooms or areas with mild humidity levels, a portable dehumidifier may be sufficient. For larger spaces or areas with high humidity levels, a whole-house dehumidifier may be necessary.In addition to choosing the right size dehumidifier, it is important to properly maintain and operate the appliance to ensure optimal performance. Regularly emptying the water reservoir, cleaning the filter, and checking for any signs of damage are all important steps in maintaining your dehumidifier. It is also important to place the dehumidifier in a central location in the room to ensure even distribution of dry air.In conclusion, dehumidifiers are essential appliances that help to create a more comfortable and healthy living environment by reducing excess moisture in the air. By understanding how dehumidifiers work and choosing the right type and size for your home, you can enjoy the benefits of improved indoor air quality and protection from mold and other moisture-related issues. Proper maintenance and operation of your dehumidifier will ensure that it continues to effectively remove moisture from the air, creating a more comfortable and healthy living space for you and your family.
Learn more >
What are the popular Key lock switch product types?
What are the popular Key lock switch product types?
On 2024-03-25 in 2
Key lock switches are a popular type of switch used in a variety of applications to control access to certain functions or equipment. These switches require a physical key to be inserted and turned in order to activate or deactivate the switch. There are several popular types of key lock switches available on the market, each with its own unique features and benefits. In this article, we will explore some of the most common types of key lock switches and their uses.1. Rotary key lock switches: Rotary key lock switches are one of the most common types of key lock switches. These switches feature a cylindrical key that is inserted into a slot and then turned to activate or deactivate the switch. Rotary key lock switches are often used in industrial applications, such as controlling machinery or equipment, as well as in security systems to control access to certain areas.2. Push-button key lock switches: Push-button key lock switches are another popular type of key lock switch. These switches feature a button that is pressed to activate or deactivate the switch, along with a key that is used to lock or unlock the button. Push-button key lock switches are commonly used in automotive applications, such as controlling the ignition or starting system of a vehicle.3. Toggle key lock switches: Toggle key lock switches are a type of key lock switch that features a lever or toggle switch that is moved up or down to activate or deactivate the switch. These switches are often used in electronic devices, such as computers or gaming consoles, to control power or other functions. Toggle key lock switches are also commonly used in security systems to control access to certain areas.4. Keyed selector switches: Keyed selector switches are a type of key lock switch that features multiple positions or settings that can be selected using a key. These switches are often used in industrial applications to control different functions or modes of operation. Keyed selector switches are commonly used in machinery or equipment that requires multiple settings or configurations.5. Keyed emergency stop switches: Keyed emergency stop switches are a type of key lock switch that is used to quickly shut down equipment or machinery in case of an emergency. These switches feature a large red button that is pressed to stop the equipment, along with a key that is used to reset the switch. Keyed emergency stop switches are commonly used in industrial settings to ensure the safety of workers and prevent accidents.In conclusion, key lock switches are a versatile and popular type of switch that is used in a wide range of applications to control access to certain functions or equipment. There are several popular types of key lock switches available on the market, each with its own unique features and benefits. Whether you need to control machinery, equipment, or access to certain areas, there is a key lock switch that is right for your needs.
Learn more >
How should I choose the spot Toggle Switches?
How should I choose the spot Toggle Switches?
On 2024-03-24 in 4
When it comes to choosing the right spot toggle switches for your needs, there are several factors to consider. Toggle switches are commonly used in a variety of applications, from industrial machinery to household appliances. They are a type of switch that is operated by a lever or toggle, which can be flipped up or down to turn a circuit on or off.There are several different types of toggle switches available on the market, each with its own unique features and specifications. In this article, we will discuss some of the key factors to consider when choosing the right spot toggle switches for your specific needs.1. Type of ApplicationThe first thing to consider when choosing spot toggle switches is the type of application in which they will be used. Different applications may require different types of toggle switches, depending on factors such as the voltage and current rating, the size and shape of the switch, and the environmental conditions in which it will be used.For example, if you are using toggle switches in an industrial setting where they will be exposed to harsh conditions such as dust, moisture, or extreme temperatures, you will need to choose switches that are designed to withstand these conditions. On the other hand, if you are using toggle switches in a residential setting, you may not need switches that are as rugged or durable.2. Voltage and Current RatingAnother important factor to consider when choosing spot toggle switches is the voltage and current rating of the switch. The voltage rating of a switch indicates the maximum voltage that the switch can safely handle, while the current rating indicates the maximum current that the switch can safely carry.It is important to choose toggle switches with the appropriate voltage and current ratings for your specific application to ensure that they will operate safely and reliably. Using switches with insufficient ratings can lead to overheating, arcing, or even electrical fires, so it is crucial to choose switches that are rated for the voltage and current levels of your circuit.3. Number of Poles and ThrowsToggle switches come in a variety of configurations, including single-pole, double-pole, and triple-pole switches. The number of poles refers to the number of separate circuits that the switch can control, while the number of throws refers to the number of positions in which the switch can be toggled.For example, a single-pole, single-throw (SPST) switch controls one circuit and has two positions (on and off), while a double-pole, double-throw (DPDT) switch controls two circuits and has three positions (on, off, and on). The number of poles and throws you need will depend on the specific requirements of your application, so be sure to choose switches that are configured appropriately.4. Size and ShapeThe size and shape of the toggle switch are also important considerations when choosing spot toggle switches. Toggle switches come in a variety of sizes and shapes, ranging from small, compact switches for tight spaces to larger, more robust switches for heavy-duty applications.It is important to choose switches that are the right size and shape for your specific application to ensure that they will fit properly and function correctly. Be sure to consider factors such as the mounting options, the space available for the switch, and any other components that the switch will need to interface with.5. Environmental ConditionsFinally, it is important to consider the environmental conditions in which the toggle switches will be used. Some toggle switches are designed to withstand harsh conditions such as dust, moisture, vibration, and extreme temperatures, while others are more suited for indoor or residential use.If you are using toggle switches in an industrial setting or outdoor environment, be sure to choose switches that are rated for these conditions to ensure that they will operate reliably. Look for switches that are sealed or waterproof, have rugged construction, and are designed to withstand the specific environmental challenges of your application.In conclusion, choosing the right spot toggle switches for your needs requires careful consideration of factors such as the type of application, voltage and current rating, number of poles and throws, size and shape, and environmental conditions. By taking these factors into account and selecting switches that are well-suited to your specific requirements, you can ensure that your toggle switches will operate safely and reliably in your application.
Learn more >

+86-755-23579903

sales@emi-ic.com
0