Monolithic Power Systems Inc. MP2736DQG-LF-Z
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- MP2736DQG-LF-Z
- Monolithic Power Systems Inc.
- IC SWITCH SPDT
- Interface - Analog Switches, Multiplexers, Demultiplexers
- MP2736DQG-LF-Z Datasheet
- 10-VFQFN
- 10-VFQFN
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What is MP2736DQG-LF-Z
Monolithic Power Systems Inc. Part Number MP2736DQG-LF-Z(Interface - Analog Switches, Multiplexers, Demultiplexers), developed and manufactured by Monolithic Power Systems Inc., 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.
MP2736DQG-LF-Z 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.
MP2736DQG-LF-Z Specifications
- Part NumberMP2736DQG-LF-Z
- CategoryInterface - Analog Switches, Multiplexers, Demultiplexers
- ManufacturerMonolithic Power Systems Inc.
- DescriptionIC SWITCH SPDT
- Package10-VFQFN
- Series-
- Operating Temperature-40°C ~ 85°C (TA)
- Package / Case10-VFQFN
- Supplier Device Package10-QFN (1.8x1.4)
- Number of Circuits2
- On-State Resistance (Max)450 mOhm
- Voltage - Supply, Single (V+)1.65 V ~ 5.5 V
- Multiplexer/Demultiplexer Circuit2:1
- Switch CircuitSPDT
- -3db Bandwidth50MHz
- Channel-to-Channel Matching (ΔRon)10 mOhm
- Switch Time (Ton, Toff) (Max)36ns, 30ns
- Channel Capacitance (CS(off), CD(off))55pF
- Current - Leakage (IS(off)) (Max)40nA
- Crosstalk-70dB @ 100kHz
Application of MP2736DQG-LF-Z
MP2736DQG-LF-Z Datasheet
MP2736DQG-LF-Z Datasheet , 10-VFQFN,-40°C ~ 85°C (TA),10-VFQFN,10-QFN (1.8x1.4),2,450 mOhm,1.65 V ~ 5.5 V,2:1,SPDT,50MHz,10 mOhm,36ns, 30ns,55pF,40nA,-70dB @ 100kHz
MP2736DQG-LF-Z Classification
Interface - Analog Switches, Multiplexers, Demultiplexers
FAQ about Interface - Analog Switches, Multiplexers, Demultiplexers
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1. What is an analog multiplexer?
An analog multiplexer is a device that can receive multiple input signals and combine these signals into one output signal according to certain rules. It combines multiple signals into one signal through a shared medium, thereby realizing signal multiplexing transmission. Analog multiplexers are widely used in communication systems, especially in television and radio transmission, where multiple signals are combined according to frequency division through frequency division multiplexing technology, and then transmitted through shared channels.
What is the difference between a multiplexer and an analog switch?
The main differences between a multiplexer and an analog switch are application scenarios, number of channels and signal processing capabilities.
Application scenarios and number of channels
Multiplexer: Mainly used in applications with a large number of channels, such as 4:1, 8:1, 16:1, etc. It can receive multiple input signals and synthesize a single output signal in a predetermined order, which is suitable for scenarios where multiple signals need to be processed simultaneously.
Analog switch: Mainly used in scenarios with a small number of channels, such as SPST (single pole single throw), SPDT (single pole double throw), etc. It is mainly used for channel selection or gear switching, and is suitable for scenarios where each channel needs to be controlled separately.
Signal processing capabilities
Multiplexer: It can process multiple input signals at the same time, divide each input signal into a series of time slices through time division multiplexing (TDM) technology, and transmit them in sequence. It requires high accuracy and stability to ensure accurate data transmission and low bit error rate.
Analog switch: Mainly used for channel selection, it cannot turn on multiple channels at the same time. The switch state of each channel is independent, which is suitable for scenarios where each channel needs to be controlled separately.
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2. What are multiplexers and demultiplexers used for?
Multiplexers and demultiplexers are mainly used for sharing communication channels and data transmission.
Multiplexer (MUX)
A multiplexer (MUX) is a device that is able to combine multiple input signals into a single output signal, thereby transmitting multiple data streams on a single communication channel. Its main functions include:
Signal merging: Combine multiple input signals into one output signal for transmission over a single communication channel.
Frequency division multiplexing (FDM): In frequency division multiplexing, the spectrum is divided into multiple logical channels, each user occupies one channel exclusively, and the signal is modulated onto a different carrier frequency.
Time division multiplexing (TDM): In time division multiplexing, time is divided into multiple time periods, each time period is assigned to a different signal, and is usually used for digital communications.
Demultiplexer (DeMUX)
Demultiplexer (DeMUX) is the opposite of multiplexer. It decomposes the received composite signal into multiple output signals, each corresponding to an original input signal. Its main functions include:
Signal decomposition: Decompose the composite signal into multiple output signals, each corresponding to an original input signal.
Frequency division multiplexing (FDM): At the receiving end, the demultiplexer separates the composite signal into signals of each frequency, and then transmits them to the corresponding users respectively.
Time Division Multiplexing (TDM): At the receiving end, the demultiplexer separates the composite signal according to the allocation of time periods to ensure that the signal in each time period is correctly transmitted. -
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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