Pingshang Technology sells patch transistors in stock, complete specifications, original original products, and shipped as soon as 24 hours. Fast delivery and good quality!
SMD transistor:
Package: SOT-23
Model: S9012, S9013, S9014, S9015, S9018, S8050, S8550, SS8050,
MMBT3904, MMBT3906, MMBT4401 MMBT5551, MMBT5401, MMBT2222, MMBT2907, MMBT2907A, etc.
SMD transistor characteristics:
1. Different materials made of different spectral characteristics;
2. Has a great photocurrent amplification effect;
3. When the PN junction with photosensitive characteristics is exposed to light radiation, a photocurrent is formed;
4. The base area is made larger, and the launch area is made smaller;
Widely used in: sweeping robots, terminal equipment, smart electronic products, smart audio and video, fitness equipment and other fields, long-term continuous supply, support for customization, and provide free samples.
SOT-23 Our patch transistor products are mainly used in: 1. Power Products 2. Lighting equipment 3. Automotive Electronics 4. Medical equipment 5. Intelligent products 6. Network communication equipment 7. Instrumentation The functions of the patch transistor include: 1. Commonly used for voltage amplification and current amplification; 2. Leading the formation of the oscillation circuit 3. Use as an electronic switch 4. Play the role of impedance change 5. Use as a variable resistor In the production of electronic products, the chip transistors of electronic components can be regarded as small common components. It has the following seven categories for commonly used ones. The parameters are described in detail below. 9012 PNP low noise amplifier 50V 0.5A 0.625W 150MHZ 9013 NPN low frequency amplifier 50V 0.5A 0.625W 150MHZ 9014 NPN low noise amplifier 50V 0.1A 0.4W 150HMZ 9015 PNP low noise amplifier 50V 0.1A 0.4W 150MHZ 9018 NPN high frequency amplifier 30V 0.05A 0.4W 1000MHZ 8050 NPN high frequency amplifier 40V 1.5A 1W 100MHZ 8550 PNP high frequency amplifier 40V 1.5A 1W 100MHZ
The conventional specifications of SMD transistors include: Package: SOT-23 model: S9012, S9013, S9014, S9015, S9018, S8050, S8550, SS8050, SS8050 The above are more conventional models, if you need other models, please contact Pingshang Technology Our patch transistor products are mainly used in: 1. Power Products 2. Lighting equipment 3. Automotive Electronics 4. Medical equipment 5. Intelligent products 6. Network communication equipment 7. Instrumentation The functions of the patch transistor include: 1. Commonly used for voltage amplification and current amplification; 2. Leading the formation of the oscillation circuit 3. Use as an electronic switch 4. Play the role of impedance change 5. Use as a variable resistor Welcome friends who are interested to consult online
The conventional specifications of SMD transistors include: Package: SOT-23 model: S9012, S9013, S9014, S9015, S9018, S8050, S8550, SS8050, SS8050 Our patch transistor products are mainly used in: 1. Power Products 2. Lighting equipment 3. Automotive Electronics 4. Medical equipment 5. Intelligent products 6. Network communication equipment 7. Instrumentation The functions of the patch transistor include: 1. Commonly used for voltage amplification and current amplification; 2. Leading the formation of the oscillation circuit 3. Use as an electronic switch 4. Play the role of impedance change 5. Use as a variable resistor Welcome friends who are interested to consult online
The conventional specifications of SMD transistors include: Package: SOT-23 model: S9012, S9013, S9014, S9015, S9018, S8050, S8550, SS8050, SS8050 MMBT3904, MMBT3906, MMBT4401 MMBT5551, MMBT5401, MMBT2222, MMBT2907, MMBT2907A, MMBTA42 MMBTA43, MMBTA44, MMBTA55, MMBTA56, MMBTA64, MMBTA92, MMBTA93, MMBTA94, etc. The above are more conventional models, if you need other models, please contact Pingshang Technology Our patch transistor products are mainly used in: 1. Power Products 2. Lighting equipment 3. Automotive Electronics 4. Medical equipment 5. Intelligent products 6. Network communication equipment 7. Instrumentation The functions of the patch transistor include: 1. Commonly used for voltage amplification and current amplification; 2. Leading the formation of the oscillation circuit 3. Use as an electronic switch 4. Play the role of impedance change 5. Use as a variable resistor Welcome friends who are interested to consult online
SMD triode conventional specifications include: Package: SOT-23 model: S9012, S9013, S9014, S9015, S9018, S8050, S8550, SS8050, SS8050 Our chip triode products are mainly used in: 1. Power Products 2. Lighting equipment 3. Automotive Electronics 4. Medical Equipment 5. Intelligent products 6. Network communication equipment 7. Instrumentation The role of the chip triode includes: 1. Commonly used for voltage amplification and current amplification; 2. Dominate the oscillator circuit 3. Use as an electronic switch 4. Play the role of impedance change 5. Use as a variable resistor
The conventional specifications of SMD transistors include: Package: SOT-23 model: S9012, S9013, S9014, S9015, S9018, S8050, S8550, SS8050, SS8050 The above are more conventional models, if you need other models, please contact Pingshang Technology Our patch transistor products are mainly used in: 1. Power Products 2. Lighting equipment 3. Automotive Electronics 4. Medical equipment 5. Intelligent products 6. Network communication equipment 7. Instrumentation The functions of the patch transistor include: 1. Commonly used for voltage amplification and current amplification; 2. Leading the formation of the oscillation circuit 3. Use as an electronic switch 4. Play the role of impedance change 5. Use as a variable resistor In the production of electronic products, the chip transistors of electronic components can be regarded as small common components. It has the following seven categories for commonly used ones.
A field effect transistor (FET) converts changes in input voltage into changes in output current. The gain of a FET is equal to its transconductance, defined as the ratio of the change in output current to the change in input voltage. Commonly available on the market are generally N-channel and P-channel. The commonly used packages of SMD MOS tubes are SOT-23 SOT-523 SOT-323 TO-252 TO-263, etc. Commonly used mos tube models: 2N7002 SOT-23 2N7002K SOT-23 2N7002E SOT-23 2N7002T SOT-523 2N7002W SOT-323 A03401 SOT-23 AO3400 SOT23 AO3415A SOT-23 SI2300 SOT-23 SI2301 SOT-23 SI2302 SOT-23 SI2305 SOT-23 IRFR3518 TO-252 IRLR3110Z TO-252 IRLR2908 TO-252 2N60 TO-252 4N60 TO-252 5N20 TO-252 FQB6N60C TO-263 IRF830AS TO-263 and other models. MOS tube function: 1. Rectification 2. Detection 3. Voltage stabilization 4. Electronic switch 5. Voltage and current amplification 6. Oscillation 7. Impedance transformation 8. As variable resistor 9. Constant current
Product Details Category: Diode PN: BC817 Brand: / Description: TRANSISTOR CJ BC817 260-600 PKG SOT-23 diode instead BC817,215 BIP NPN 45V 500MA SOT23 SMD NPN GENERAL POURPSE LF NXP SEMICONDUCTORS Package: SOT-23
Low Voltage MOS Transistor ZKHK's Low Voltage MOS Transistor is a reliable and highly efficient transistor designed to work in applications that require low voltage and low power. It is capable of switching up to 40V and can handle up to 250mA of current. It is available in a variety of packages including SOT-23, SOT-223, and SMD. The low voltage and low power requirements make it ideal for use in low-power and wearable applications. PRODUCTS Different Model Numbers Of Low Voltage MOS Transistor A low voltage mosfet transistor is an integrated circuit device for electrical applications, which offers low power consumption and high performance. It is used in a wide range of electronic applications from consumer electronics to industrial electronics. Common Design Considerations For Low Voltage MOS Transistors Some common design considerations for low voltage MOS transistors include gate-source voltage, drain-source voltage, gate oxide thickness, and drain-source resistance. These factors must be optimized to ensure the transistor can properly switch and handle the current load. Gate-source voltage must be kept low to reduce charge injection and minimize the risk of latch-up. Drain-source voltage should be low enough to reduce leakage current. Gate oxide thickness should be chosen to minimize the channel resistance and improve switching speed. Drain-source resistance should be optimized to reduce power dissipation and minimize the voltage drop across the transistor.