Overview
The MC10H125FNR2G is a quad translator integrated circuit produced by onsemi. This component is designed to interface data and control signals between the MECL (ECL - Emitter-Coupled Logic) section and the saturated logic section of digital systems. It plays a crucial role in ensuring seamless communication and signal translation between different logic levels, making it an essential component in various digital system designs.
Key Specifications
| Parameter | Value |
|---|---|
| Supply Voltage - Max | 5.25 V |
| Supply Voltage - Min | 4.75 V |
| Propagation Delay Time | 3.35 ns |
| Output Type | Non-Inverted |
| Operating Temperature | 0°C ~ 75°C (TA) |
| Mounting Type | Surface Mount |
Key Features
- Quad translator for interfacing MECL and saturated logic sections.
- Non-inverted output.
- Surface mount package for easy integration into modern PCB designs.
- Operates within a temperature range of 0°C to 75°C.
- Low propagation delay time of 3.35 ns, ensuring high-speed signal translation.
Applications
The MC10H125FNR2G is widely used in digital systems that require signal translation between different logic levels. Some common applications include:
- High-speed data communication systems.
- Digital signal processing systems.
- Telecommunication equipment.
- Computer networking hardware.
- Other digital systems requiring ECL to TTL/CMOS level translation.
Q & A
- What is the primary function of the MC10H125FNR2G?
The primary function is to translate data and control signals between MECL and saturated logic sections of digital systems. - What is the maximum supply voltage for the MC10H125FNR2G?
The maximum supply voltage is 5.25 V. - What is the minimum supply voltage for the MC10H125FNR2G?
The minimum supply voltage is 4.75 V. - What is the propagation delay time of the MC10H125FNR2G?
The propagation delay time is 3.35 ns. - What type of output does the MC10H125FNR2G have?
The output is non-inverted. - What is the operating temperature range of the MC10H125FNR2G?
The operating temperature range is 0°C to 75°C. - What type of mounting does the MC10H125FNR2G use?
The component uses surface mount technology. - In what types of systems is the MC10H125FNR2G typically used?
It is typically used in high-speed data communication systems, digital signal processing systems, telecommunication equipment, and other digital systems requiring ECL to TTL/CMOS level translation. - Why is the MC10H125FNR2G important in digital system design?
It is important because it ensures seamless communication and signal translation between different logic levels, which is crucial for the proper functioning of digital systems. - Where can I find detailed specifications for the MC10H125FNR2G?
Detailed specifications can be found on the official onsemi website, as well as on distributor websites such as Mouser, Digi-Key, and Utmel Electronic.
