Usb switch ic

Usb switch ic DEFAULT

UPB1510GV-A : Prescaler 3.0 GHz Prescaler. s: Manufacturer: CEL ; Product Category: Prescaler ; RoHS:  Details ; Maximum Operating Frequency: 3000 MHz ; Minimum Operating Frequency: 500 MHz ; Supply Voltage (Min): 4.5 V ; Supply Voltage (Max): 5.5 V ; Operating Supply Voltage: 4.5 V to 5.5 V ; Minimum Operating Temperature: - 40 C ; Maximum Operating Temperature:.

2N5322 LEADFREE : Transistors Bipolar (BJT) PNP 100V 2A. s: Manufacturer: Central Semiconductor ; Product Category: Transistors Bipolar (BJT) ; Transistor Polarity: PNP ; Collector- Emitter Voltage VCEO Max: 75 V ; Emitter- Base Voltage VEBO: 7 V ; Maximum DC Collector Current: 2 A ; DC Collector/Base Gain hfe Min: 30 ; Maximum Operating Frequency: 5 MHz ; Maximum Operating.

ZSR1000GTA : Linear Regulators - Standard 10V 200mA. s: Manufacturer: Diodes Inc. ; Product Category: Linear Regulators - Standard ; RoHS:  Details ; Output Type: Fixed ; Polarity: Positive ; Output Voltage: 10 V ; Output Current: 0.2 A ; Load Regulation: 30 mV ; Input Voltage MAX: 20 V ; Line Regulation: 40 mV ; Maximum Operating Temperature: + 125 C ; Mounting.

2DB1694-7 : Transistors Bipolar (BJT) LOW VSAT PNP SMT 3K. s: Manufacturer: Diodes Inc. ; Product Category: Transistors Bipolar (BJT) ; RoHS:  Details ; Transistor Polarity: PNP ; Collector- Emitter Voltage VCEO Max: 30 V ; Emitter- Base Voltage VEBO: 6 V ; Maximum DC Collector Current: 1 A ; Configuration: Single ; Maximum Operating Frequency: 300 MHz ; Maximum.

SP3225EEY-L : Universal Bus Functions 1MBPS+3-+5.5V RS-232 AUTO ONLINE PLUS. s: Manufacturer: Exar ; Product Category: Universal Bus Functions ; RoHS:  Details ; Logic Type: RS-232 Transceivers ; Number of Circuits: 3 ; On Resistance (Max): 5 KOhms ; Propagation Delay Time: 0.22 us ; Maximum Operating Temperature: + 85 C ; Minimum Operating Temperature: - 40 C ; Package.

MCIMX27VJP4A : Processors - Application Specialized BONO 17X17 FG. s: Manufacturer: Freescale Semiconductor ; Product Category: Processors - Application Specialized ; RoHS:  Details ; Operating Supply Voltage: 1.45 V ; Maximum Operating Temperature: + 85 C ; Mounting Style: SMD/SMT ; Package / Case: T-PBGA-B404 ; Packaging: Tray ; Core: ARM926EJ-S ; Data Bus Width:.

MPC880CZP66 : Microprocessors (MPU) PQ I HIP6W DUET. s: Manufacturer: Freescale Semiconductor ; Product Category: Microprocessors (MPU) ; RoHS: No ; Processor Series: MPC8xx ; Core: MPC8xx ; Data Bus Width: 32 bit ; Maximum Clock Frequency: 66 MHz ; Maximum Operating Temperature: + 100 C ; Mounting Style: SMD/SMT ; Package / Case: BGA ; Packaging: Tray ; Minimum.

SST39VF3202B-70-4I-EKE : Flash 2.7 to 3.6V 32Mbit Multi-Purpose Flash. s: Manufacturer: Microchip ; RoHS:  Details ; Memory Type: Multi-Purpose Flash ; Memory Size: 32 Mbit ; Architecture: Sector Erase ; Timing Type: Asynchronous ; Interface Type: CFI ; Access Time: 70 ns ; Supply Voltage (Max): 3.6 V ; Supply Voltage (Min): 2.7 V ; Maximum Operating Current: 9 mA ; Operating.

LPC1342FBD48,151 : Microcontrollers (MCU) 32b 16K Flash 42I/O. » » » » MCUs MCUs for Blood Pressure MonitorBlood pressure monitors use an inflatable air-bladder cuff and a listening device or pressure sensor to measure blood pressure in an artery. Blood pressure monitors consist of either manually inflated cuffs with a stethoscope for listening.

74HC4520D,118 : Counter Shift Registers DUAL 4-BIT SYNC. s: Manufacturer: NXP ; Product Category: Counter Shift Registers ; RoHS:  Details ; Counter Type: Binary Counters ; Counting Sequence: Up ; Number of Circuits: 2 ; Package / Case: SOT-109 ; Logic Family: HC ; Logic Type: CMOS ; Number of Input Lines: 1 ; Propagation Delay Time: 240 ns ; Supply Voltage (Max):.

CAT4016VSR-T2 : LED Lighting Drivers 16-Channel Constant Current. » » » Electronics - Drivers, ICs Electronics - Drivers, ICsAn LED Integrated Circuit (IC) Driver is a power source/power supply that adjusts the voltage or current to LEDs, ranging in complexity from a resistor to a constant voltage or constant current power supply. s: Manufacturer:.

DTA114EETL : Transistors Switching (Resistor Biased) PNP 50V 50MA SOT-416. s: Manufacturer: ROHM Semiconductor ; Product Category: Transistors Switching (Resistor Biased) ; RoHS:  Details ; Configuration: Single ; Transistor Polarity: PNP ; Typical Input Resistor: 10 KOhms ; Typical Resistor Ratio: 1 ; Mounting Style: SMD/SMT ; Package / Case: EM-3 ; Continuous.

IRF9Z20PBF : MOSFET P-Chan 50V 9.7 Amp. s: Manufacturer: Vishay ; Product Category: MOSFET ; RoHS:  Details ; Transistor Polarity: P-Channel ; Drain-Source Breakdown Voltage: - 50 V ; Gate-Source Breakdown Voltage: +/- 20 V ; Continuous Drain Current: 9.7 A ; Resistance Drain-Source RDS (on): 0.28 Ohms ; Configuration: Single ; Maximum Operating Temperature:.

PBSS5112PAP,115 : Transistors Bipolar - BJT 120V 1A PNP/PNP lo VCEsat transistor. NXP Low VCEsat (BISS) Transistors offer a dual load switch using double RETs and double BISS transistors. NXP Low VCEsat (BISS) Transistors keep power consumption and heat dissipation to a minimum, delivering low power consumption and high collector current capability by utilizing innovative.

IXXX110N65B4H1 : IGBT Transistors 650V/240A TRENCH IGBT GENX4 XPT. s: Manufacturer: IXYS ; Configuration: Single ; Collector- Emitter Voltage VCEO Max: 650 V ; Collector-Emitter Saturation Voltage: 1.75 V ; Maximum Gate Emitter Voltage: 20 V ; Continuous Collector Current at 25 C: 240 A ; Gate-Emitter Leakage Current: 100 nA ; Power Dissipation: 880 W ; Maximum Operating.

AN26102A-PR : RF Amplifier LPA 2450MHz 18dBm ALGA011-W-0912ANA. s: Manufacturer: Panasonic ; Type: Low Noise Amplifier ; Operating Frequency: 2.4 GHz ; Power Gain Typ: 30 dB ; Operating Supply Voltage: 2.95 V to 4.2 V ; Supply Current: 300 mA ; Maximum Operating Temperature: + 85 C ; Mounting Style: SMD/SMT ; Package / Case: WLCSP-11 ; Packaging: Reel ; Maximum Power.

ADM3072EARZ-REEL7 : RS-422/RS-485 Interface IC 3.3V 15kV ESDPrtect Half Duplex 250kbps. ADI & Bourns RS-485 Transceiver Protection Solutions offer electromagnetic compatibility (EMC) compliant solutions for three protection levels for popular RS-485 communication ports. Each solution has been tested and characterized to ensure the dynamic interaction between transceiver.

ADP7118AUJZ-R7 : LDO Voltage Regulators 20V 200mA LDO adjVo. Analog Devices ADP7118 CMOS low dropout (LDO) linear regulator operates from 2.7V to 20V and provides up to 200mA of output current. This high input voltage LDO is ideal for the regulation of high performance analog and mixed-signal circuits operating from 20V down to 1.2V rails. ADP7142 are operates from.

UCC21521DW : Gate Drivers 4-A, 6-A Iso Dual Channel Gate Driver. s: Product Category: Gate Drivers ; Manufacturer: Texas Instruments ; Mounting Style: SMD/SMT ; Package/Case: SOIC-16 ; Product: IGBT, MOSFET Gate Drivers ; Number of Drivers: 2 Driver ; Output Current: 4 A, 6 A ; Configuration: Inverting ; Rise Time: 6 ns ; Fall Time: 7 ns ; Supply Voltage - Max:.




TS3USB30ERSWR: Analog Switch Dual SPDT 10-Pin UQFN T/R - Tape and Reel

Package: UQFN-10

Mfr. Part#: TS3USB30ERSWR

Mfr.: TI
Datasheet: (e-mail or chat us for PDF file)

ROHS Status: 

Quality: 100% Original

Warranty: 180 days

The TS3USB30E is a high-bandwidth switch specially designed for the switching of high-speed USB 2.0 signals in handset and consumer applications, such as cell phones, digital cameras, and notebooks with hubs or controllers with limited USB I/Os. The wide bandwidth (900 MHz) of this switch allows signals to pass with minimum edge and phase distortion. The device multiplexes differential outputs from a USB host device to one of two corresponding outputs. The switch is bidirectional and offers little or no attenuation of the high-speed signals at the outputs. It is designed for low bit-to-bit skew and high channel-to-channel noise isolation, and is compatible with various standards, such as high-speed USB 2.0 (480 Mbps).

The TS3USB30E integrates ESD protection cells on all pins, is available in a tiny µQFN package (1.8 mm × 1.4 mm), a DGS package, and is characterized over the free air temperature range of -40°C to 85°C.


Key Features

  • VCC Operation at 3 V to 4.3 V
  • 1.8-V Compatible Control-Pin Inputs
  • IOFF Supports Partial Power-Down-Mode Operation
    • D+/D- Pins Tolerate up to 5.25V
  • rON = 10 Ω Max
  • ΔON = 0.35 Ω Typ
  • Cio(ON) = 7.5 pF Typ
  • Low Power Consumption (1 µA Max)
  • -3 dB Bandwidth = 900 MHz Typ
  • Latch-Up Performance Exceeds 100 mA Per JESD 78, Class II(1)
  • ESD Performance Tested Per JESD 22
  • 8000-V Human-Body Model (A114-B, Class II)
  • 1000-V Charged-Device Model (C101)
  • ESD Performance I/O Port to GND(2)
  • 15000-V Human-Body Model
  • Packaged in 10-pin TQFN (1.4 mm × 1.8 mm)


Why choosing us

  • Located in Shenzhen, the electronic market center of China.
  • 100% guarantee components quality: Genuine Original.
  • Sufficient stock on your urgent demand.
  • Sophisticated colleagues help you solve problems to reduce your risk with on-demand manufacturing
  • Faster shipment: In stock components can ship the same day .
  • 24 Hours service 



  1. Product images are for reference only.
  2. You can contact sales person to apply for a better price.
  3.  For more products, Pls do not hesitate to contact our Sales team.   
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Nintendo Switch - USB-C Charging Power Management IC Chip M92T36

Power Management IC for Nintendo Switch

If you have a problem with your Nintendo Switch and you need a spare part from the category Spare Parts: Power Management IC, you can buy it here.

Original and OEM spare parts

Originality: OEM - Spare part sold as OEM ("Original Equipment Manufacturer") is manufactured to the same standards, specifications and materials as the original. This is a copy of the original, and the spare part delivered as an OEM may (in rare cases) have minimal variations in functionality, quality or appearance.To find out more about originality, read our blogwhere we focus on originality in more detail.

Assembly and tips:

  • special tools, which can be found in our offer, are required for assembling or disassembling
  • while assembling, pay attention to the fragile parts of the connectors
  • test the functionality of the part before assembling
  • try to perform repairs in a dry, dust-free environment without direct sunlight
  • the assembly of the part should be carried out by a qualified person
  • we are not responsible for any damages caused during installation
  • if you have any questions, please contact us at [email protected] or +4212/22133399.

Warranty conditions:

  • the product is new, has never been used and is in its original packaging
  • the order is well packed to prevent damage during transport
  • warranty for goods: natural persons 24 months, entrepreneurs: legal entities and self-employers (ID number on the purchase document) see our Terms and conditions and complaint conditions
  • the warranty covers manufacturing defects, not mechanical damage
  • a mechanically damaged spare part cannot be claimed
  • if trademark stamp will be damaged your claim will be dismissed

Have you seen our entire product portfolio and didn´t found a spare part suitable for your device Nintendo Switch  ? Or do you have any additional questions? Do not hesitate to contact us in any matter by e-mail at [email protected] or by phone +4212/22133399.

  • Device typeGaming Console Spare Parts
  • Device modelNintendo Switch
  • CategoryIC Components
  • OriginalityOEM
  • EAN2200000397652
  • Manufacturer codeNS-15
MAX14566Е USB switch


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Switch ic usb

What's the Difference Between a USB Hub & USB Switch + What is Multiplexer?

Several customers have asked us whether or not a USB hub or a USB switch is right for their USB testing or control application. There are important and distinctive differences between these two classes of devices, both architecturally and functionally. In many cases, both devices can be used in the same system to complement one another to achieve the required system functionality.

In this blog post, we will cover the functional and architectural differences between USB hubs and USB switches, using the specific example of CarPlay-capable devices.

USB Hubs

A USB hub is a 1:N device that takes one upstream-facing USB connection and then shares it concurrently with several (N) downstream devices. Figure 1 below shows a simple example of a hub. 

Figure 1: Simple diagram of a 1:4 USB hub

It is best to use a hub when you need to access multiple attached devices concurrently (Figure 2). The multiple devices attached to the hub are all available at the same time, but will collectively share the bandwidth of the single upstream connection (Figure 3).

Figure 2: USB host can access devices A, B, C and D concurrently

Figure 3: Downstream devices sharing the collective upstream bandwidth

Hubs are more complex devices than switches from a data handling standpoint. Since a USB hub must recognize multiple devices concurrently, it must keep context for data transfers to and from each device. In order to achieve this, the hub terminates the connection from the USB host, deconstructs USB data packets and routes the data packets to and from the appropriate individual devices. Finally, it will then re-transmit the properly routed USB traffic to the downstream devices. Figure 4 shows an example of a host transferring data through a hub to several devices concurrently. 

Figure 4: Example of data routing and bandwidth sharing by a hub

In a hub, the internal hardware (a USB hub IC) typically requires that only upstream-facing protocols be present on one side and downstream facing protocols on the other. This is also indicated by the fixed types of external USB connectors on the hub.

The fixed roles of the internal silicon also mean that only USB hosts can be connected to the upstream-facing port and only USB devices can be connected to the downstream-facing port(s). Connecting a USB host to a downstream-facing port will result in the hub not being able to communicate over that downstream-facing port. Similar results occur when attaching a USB device to an upstream facing port as shown in Figure 5:

Figure 5: Upstream and downstream ports of a USB hub

CarPlay Example using USB hub

This can create a challenge for applications where the device may change roles from a USB device to becoming a USB host. CarPlay-enabled phones are an example of devices which exhibit this behavior. In CarPlay, the phone changes roles from a USB device to a USB host so that it has control of the car’s infotainment system. The infotainment system likewise changes roles from a USB host to a USB device.

Consider Figure 6 below: a CarPlay-enabled automotive infotainment system connected to a traditional USB hub and then to a CarPlay-enabled phone. The CarPlay protocol will not be successful as the traditional USB hub cannot not recognize the phone as a USB host or the infotainment system as a USB device (Figure 7).

Figure 6: Phone connected to infotainment system via traditional USB hub

Figure 7: Traditional hubs cannot support role reversal of CarPlay protocol

USB Switches

A USB switch is a 1:N or N:1 device which makes a selective connection between its Common port and one selected channel. This creates a direct and dedicated connection from the Common port to the selected device. The multiple devices attached to the switch can only be accessed one at a time, but the actively selected device receives the full bandwidth of the host that it is attached to.

Figure 8: Example of a 4-channel USB switch

It is best to use a switch when you need to make a direct and dedicated connection to one device, like a cable that can be moved from one device to another. 

Figure 9: The USB host can access only the selected device, Device A

The multiple devices attached to the switch can only be accessed one at a time, but the actively selected device receives the full bandwidth of the host that it is attached to.

Figure 10: The selected device receives full bandwidth of the connection

Figure 11: USB switch showing dedicated data flow, similar to a cable connection

The internal hardware of a selector switch is typically protocol agnostic and does not have any context for upstream-facing protocols or downstream facing protocols on either side, thereby making the switch bi-directional.

This bi-directional behavior also means that USB devices can be connected to either side arbitrarily, depending on whether you require a 1:N or an N:1 configuration.

Figure 12: Bidirectional connections in a USB switch

CarPlay Example using USB switch

Let’s re-consider the CarPlay hub example, but instead, using a USB switch (Figure 13). The CarPlay-capable automotive infotainment system connected to a bi-directional USB switch and then to a CarPlay-enabled phone. The CarPlay protocol will complete successfully as the bi-directional switch acts like a direct connection between the infotainment system and the phone. USB protocol can pass freely and devices are able to change roles if the protocol mandates it (Figure 14).

Figure 13: Phone connected to infotainment system via USB switch

Figure 14: Bi-directional switch can support USB host/device role reversal of CarPlay protocol

If you have any other questions or a more advanced application, please contact Acroname’s sales team at [email protected] or our technical team at [email protected]

NX3DV42 USB 2.0 Switch IC Overview

USB bus switch ICs

The bus switch IC from Epson, who produced excellent result in USB controller.This USB bus switch ICs supports USB 2.0 high-speed transmission by reduced switch pin capacitance. This product features the low power consumption and compact package.

Document download

USB bus switch ICs spec table PDF


  • No external voltage level shifter is required thanks to the built-in level shifter
  • High voltage is allowed for input terminals (Recommeded maximum voltage: 5.5V)
  • Space-saving compact design packages

Main specifications

Note) D-system: DX, DY D*-system: D1X, D1Y, D2X, D2Y

Characteristic examples of USB 2.0 Eye-Pattern

Block diagram


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