ON Semiconductor NLAS4684MNR2
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- NLAS4684MNR2
- ON Semiconductor
- IC SWITCH DUAL SPDT 10DFN
- Interface - Analog Switches, Multiplexers, Demultiplexers
- NLAS4684MNR2 Datasheet
- 10-VFDFN Exposed Pad
- Tube
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Lead free / RoHS Compliant - 1724
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What is NLAS4684MNR2
ON Semiconductor Part Number NLAS4684MNR2(Interface - Analog Switches, Multiplexers, Demultiplexers), developed and manufactured by ON Semiconductor, distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
NLAS4684MNR2 is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately [email protected] Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.
NLAS4684MNR2 Specifications
- Part NumberNLAS4684MNR2
- CategoryInterface - Analog Switches, Multiplexers, Demultiplexers
- ManufacturerON Semiconductor
- DescriptionIC SWITCH DUAL SPDT 10DFN
- PackageTube
- Series-
- Operating Temperature-55°C ~ 125°C (TA)
- Mounting TypeSurface Mount
- Package / Case10-VFDFN Exposed Pad
- Supplier Device Package10-DFN (3x3)
- Number of Circuits2
- On-State Resistance (Max)800mOhm
- Voltage - Supply, Single (V+)1.8V ~ 5.5V
- Multiplexer/Demultiplexer Circuit2:1
- Switch CircuitSPDT
- -3db Bandwidth9.5MHz
- Voltage - Supply, Dual (V±)-
- Switch Time (Ton, Toff) (Max)30ns, 30ns
- Charge Injection15pC
- Channel Capacitance (CS(off), CD(off))102pF, 104pF
- Current - Leakage (IS(off)) (Max)1µA
- Crosstalk-83dB @ 100kHz
- Channel-to-Channel Matching (ΔRon)60mOhm
Application of NLAS4684MNR2
NLAS4684MNR2 Datasheet
NLAS4684MNR2 Datasheet , Tube,-55°C ~ 125°C (TA),Surface Mount,10-VFDFN Exposed Pad,10-DFN (3x3),2,800mOhm,1.8V ~ 5.5V,2:1,SPDT,9.5MHz,30ns, 30ns,15pC,102pF, 104pF,1µA,-83dB @ 100kHz,60mOhm
NLAS4684MNR2 Classification
Interface - Analog Switches, Multiplexers, Demultiplexers
FAQ about Interface - Analog Switches, Multiplexers, Demultiplexers
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1. What are the different types of analog switches?
There are mainly the following types of analog switches:
MOSFET switch: an analog switch based on metal-oxide-semiconductor field-effect transistor (MOSFET), suitable for low power consumption, high precision, high speed, large bandwidth and other requirements. MOSFET switches have the characteristics of low on-resistance, high off-resistance, high switching speed and low power consumption, and are widely used in audio amplifiers, video processing, data acquisition and other aspects.
Bidirectional diode switch: an analog switch based on PNP/NPN bidirectional diode, suitable for low voltage, low speed and other requirements. Bidirectional diode switches have the advantages of low on-resistance, high off-resistance and low temperature saturation current, and are often used in analog signal selection, matching networks and other aspects.
CMOS switch: an analog switch based on complementary metal oxide semiconductor (CMOS), with the characteristics of low power consumption and high-speed switching, suitable for occasions requiring low power consumption and high speed.
JFET switch: an analog switch based on junction field effect transistor (JFET), suitable for applications requiring high input impedance and low noise.
BiCMOS switch: an analog switch based on bipolar complementary metal oxide semiconductor (BiCMOS), combining the advantages of bipolar transistors and CMOS, suitable for applications requiring high speed and high precision.
MEMS switch: An analog switch based on microelectromechanical systems (MEMS), suitable for applications that require miniaturization and high reliability. -
2. What are the different types of demultiplexers?
There are mainly the following types of demultiplexers:
1:2 Demultiplexer: This demultiplexer has one input and one select line, and the input signal is assigned to one of the two outputs based on the state of the select line.
1:4 Demultiplexer: This is the most common type of demultiplexer, with two input control signals, which can control four outputs.
1:8 Demultiplexer: This demultiplexer has three input control signals, which can control eight outputs.
1:16 Demultiplexer: This demultiplexer has four input control signals, which can control sixteen outputs.
Application scenarios and functional principles of demultiplexers:
A demultiplexer is a combinational logic circuit used to distribute information on one input line to one of multiple output lines. It controls the outputs through a set of selection lines, whose bit combinations determine the specific output line connected to the input at a given moment. -
3. What are the applications of demultiplexers?
Demultiplexers are widely used in communication systems, mainly including the following aspects:
Communication systems: Demultiplexers are used in communication systems to pass data from one input to one of multiple output data lines. For example, in fiber-optic communication, optical signals are combined and transmitted after being transmitted by optical multiplexers. When they reach the receiving end, demultiplexers are needed to separate the optical signals and restore them to the original multiple signals.
Data transmission: During data transmission, demultiplexers can separate composite data streams into multiple independent signals for processing on different channels or devices. For example, in Ethernet, multiple devices share a physical connection, and the demultiplexer is responsible for correctly allocating these shared signals to each device.
Signal processing: Demultiplexers are also used in the field of signal processing, especially in scenarios where specific information needs to be extracted from composite signals. For example, in radar systems, demultiplexers can decompose the received composite radar signal into information about multiple targets to help with target identification and tracking.
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