Overview
The 74CBTLV3125PW,118 is a 4-bit high-speed bus switch integrated circuit produced by Nexperia, which was previously part of NXP Semiconductors. This component is designed to provide low on-state resistance and separate output enable inputs, making it suitable for various high-speed data transmission applications.
Key Specifications
| Parameter | Value |
|---|---|
| Manufacturer | Nexperia (formerly NXP Semiconductors) |
| Part Number | 74CBTLV3125PW,118 |
| Package Type | TSSOP16 |
| Number of Bits | 4 |
| Output Enable Inputs | Separate (1OE to 4OE) |
| On-State Resistance | Low |
| Operating Temperature Range | -40°C to +125°C |
| RoHS Compliance | Yes |
Key Features
- 4-bit high-speed bus switch
- Separate output enable inputs (1OE to 4OE)
- Low on-state resistance
- High-speed data transmission capability
- Operating temperature range: -40°C to +125°C
- RoHS compliant
Applications
The 74CBTLV3125PW,118 is suitable for a variety of applications that require high-speed data switching, including:
- High-speed data buses
- Peripheral component interconnect (PCI) applications
- Memory and I/O decoding
- Hot-swapping and hot-plugging
- General-purpose logic and switching applications
Q & A
- What is the primary function of the 74CBTLV3125PW,118?
The primary function is to act as a 4-bit high-speed bus switch. - Who is the manufacturer of this component?
The manufacturer is Nexperia, which was previously part of NXP Semiconductors. - What is the package type of the 74CBTLV3125PW,118?
The package type is TSSOP16. - How many output enable inputs does this component have?
It has separate output enable inputs (1OE to 4OE). - What is the on-state resistance of the switch?
The on-state resistance is low. - What is the operating temperature range of this component?
The operating temperature range is -40°C to +125°C. - Is the 74CBTLV3125PW,118 RoHS compliant?
Yes, it is RoHS compliant. - What are some common applications for this component?
Common applications include high-speed data buses, PCI applications, memory and I/O decoding, hot-swapping, and general-purpose logic and switching. - Why is low on-state resistance important in this component?
Low on-state resistance is important for minimizing signal attenuation and ensuring high-speed data transmission. - Can this component be used in hot-swapping applications?
Yes, it can be used in hot-swapping and hot-plugging applications.
