Home > Catalogue > Switches & Relays > Bus Switches> TOSHIBA

Bus Switches

Results: 4

Comprehensive

Price Priority

Stock Priority

Image

Part Number

Manufacturer

Description

Availability

Unit Price

Quantity

Operation

TC7WBL3305CFK,LF(T

TOSHIBA

Bus Switch 2-Element CMOS 2-IN 8-Pin US T/R

Quantity: 153000

Ship Date: 5-7 working days

3000+ $0.1436

6000+ $0.1376

9000+ $0.134

15000+ $0.1281

Ext. Price: $430.80

MOQ: 3000

Mult: 3000

SPQ: 3000

Buy Now Add to cart

TC7QPB9307FT-EL(M)

TOSHIBA

Bus Switch 1-Element CMOS 4-IN 14-Pin TSSOP

Quantity: 275

Ship Date: 6-13 working days

1+ $1.679

10+ $1.0212

25+ $0.8579

100+ $0.6226

250+ $0.5292

Ext. Price: $1.67

MOQ: 1

Mult: 1

SPQ: 1

Buy Now Add to cart

TC7WBL3305CFK(5L,F

TOSHIBA

Datasheet

Bus Switch 2-Element CMOS 2-IN 8-Pin US

Quantity: 3274

Ship Date: 6-13 working days

1+ $0.828

10+ $0.4922

25+ $0.4232

100+ $0.3168

250+ $0.264

500+ $0.2182

1000+ $0.1944

3000+ $0.1596

6000+ $0.1365

Ext. Price: $1.65

MOQ: 2

Mult: 1

SPQ: 1

Buy Now Add to cart

TC7PCI3212MT,LF(S

TOSHIBA

Datasheet

PCI Express Switch Mux/Demux 1Lanes 3 Port 2-CH 20-Pin TQFN EP T/R

Quantity: 3309

Ship Date: 6-12 working days

10+ $1.0338

100+ $0.7869

500+ $0.7629

1000+ $0.7172

2500+ $0.6854

5000+ $0.6522

Ext. Price: $24.81

MOQ: 24

Mult: 1

Buy Now Add to cart

Bus Switches

Bus Switches are a type of electronic switch that allows multiple devices to share a single communication path, known as a bus. They are essential components in computer systems and other digital devices, facilitating data transmission and reducing the number of physical connections required.

Definition:
A bus switch is a hardware device that enables multiple devices to communicate over a shared data bus. It manages the flow of data between devices, ensuring that information is transmitted efficiently and without conflict.

Function:
1. Traffic Management: It controls the flow of data between devices to prevent collisions and ensure smooth communication.
2. Resource Allocation: It allocates bus bandwidth among devices, prioritizing data transmission based on the system's needs.
3. Error Detection: Some bus switches can detect and correct errors in data transmission, improving the reliability of the system.

Applications:
1. Computer Systems: Used in motherboards to connect various components like CPUs, memory, and peripherals.
2. Networking: Employed in routers and switches to manage data traffic between different network segments.
3. Industrial Automation: Facilitates communication between controllers, sensors, and actuators in automated systems.

Selection Criteria:
1. Bandwidth: The switch should support the required data transfer rates for the system.
2. Protocol Support: It should be compatible with the communication protocols used by the devices.
3. Scalability: The ability to handle an increasing number of devices or data volume as the system grows.
4. Reliability: High reliability is crucial, especially in mission-critical applications.
5. Cost: The switch should offer a good balance between performance and cost.
6. Power Consumption: Lower power consumption is desirable, especially for mobile or energy-sensitive applications.
7. Form Factor: The physical size and shape should fit within the system's design constraints.

When choosing a bus switch, it's important to consider the specific requirements of the system in which it will be used, including the types of devices it will connect, the data rates, and the overall system architecture.
Please refer to the product rule book for details.