ON Semiconductor MC100EP14DT
- Part Number:
- MC100EP14DT
- Manufacturer:
- ON Semiconductor
- Ventron No:
- 2973767-MC100EP14DT
- Description:
- IC CLK BUFFER 2:5 2GHZ 20TSSOP
- Datasheet:
- MC100EP14DT
ON Semiconductor MC100EP14DT technical specifications, attributes, parameters and parts with similar specifications to ON Semiconductor MC100EP14DT.
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / Case20-TSSOP (0.173, 4.40mm Width)
- Number of Pins20
- Operating Temperature-40°C~85°C
- PackagingTube
- Published2006
- Series100EP
- JESD-609 Codee4
- Pbfree Codeyes
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations20
- ECCN CodeEAR99
- Terminal FinishNickel/Palladium/Gold (Ni/Pd/Au)
- Additional FeatureNECL MODE: VCC = 0V WITH VEE = -3V TO -5.5V
- SubcategoryClock Drivers
- TechnologyECL
- Voltage - Supply3V~5.5V
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)260
- Number of Functions1
- Supply Voltage3.3V
- Terminal Pitch0.65mm
- Reflow Temperature-Max (s)40
- Base Part NumberMC100EP14
- OutputECL, PECL
- Pin Count20
- Supply Voltage-Max (Vsup)5.5V
- Power Supplies-4.5V
- Supply Voltage-Min (Vsup)3V
- Number of Circuits1
- Frequency (Max)2GHz
- InputECL, HSTL, PECL
- Ratio - Input:Output2:5
- Differential - Input:OutputYes/Yes
- Propagation Delay (tpd)0.45 ns
- Same Edge Skew-Max (tskwd)0.045 ns
- Length6.5mm
- Width4.4mm
- Radiation HardeningNo
- RoHS StatusNon-RoHS Compliant
- Lead FreeLead Free
MC100EP14DT Overview
This product features a wide operating temperature range of -40°C to 85°C, making it suitable for use in various environments. It is currently listed as obsolete, indicating that it may no longer be in production. The voltage supply range is 3V to 5.5V, providing flexibility for different power sources. With 1 function, this product offers efficient and reliable performance. The output options include ECL and PECL, catering to different application needs. It has a pin count of 20, allowing for easy integration into existing systems. The minimum supply voltage is 3V, ensuring stable operation. With a maximum frequency of 2GHz, this product offers high-speed data processing. The propagation delay is only 0.45 ns, while the maximum same edge skew is 0.045 ns, ensuring precise and accurate signal transmission.
MC100EP14DT Features
20 terminations
The operating temperature of -40°C~85°C degrees
Clock Drivers subcategory
MC100EP14DT Applications
There are a lot of ON Semiconductor MC100EP14DT Clock Buffers & Drivers applications.
Defense and aerospace equipment
Radar
Internet of Things
Global positioning system (GPS)
DDR4 JEDEC standard LRDIMM design
Computing
5G
Cell Phone (UMTS/WCDMA/GSM)
Consumer Electronics
Edge computing
This product features a wide operating temperature range of -40°C to 85°C, making it suitable for use in various environments. It is currently listed as obsolete, indicating that it may no longer be in production. The voltage supply range is 3V to 5.5V, providing flexibility for different power sources. With 1 function, this product offers efficient and reliable performance. The output options include ECL and PECL, catering to different application needs. It has a pin count of 20, allowing for easy integration into existing systems. The minimum supply voltage is 3V, ensuring stable operation. With a maximum frequency of 2GHz, this product offers high-speed data processing. The propagation delay is only 0.45 ns, while the maximum same edge skew is 0.045 ns, ensuring precise and accurate signal transmission.
MC100EP14DT Features
20 terminations
The operating temperature of -40°C~85°C degrees
Clock Drivers subcategory
MC100EP14DT Applications
There are a lot of ON Semiconductor MC100EP14DT Clock Buffers & Drivers applications.
Defense and aerospace equipment
Radar
Internet of Things
Global positioning system (GPS)
DDR4 JEDEC standard LRDIMM design
Computing
5G
Cell Phone (UMTS/WCDMA/GSM)
Consumer Electronics
Edge computing
MC100EP14DT More Descriptions
Clock Driver, 1:5 Differential, ECL / HSTL, 3.3 V / 5.0 V
Clock Driver 2-IN ECL/PECL 20-Pin TSSOP Rail
The MC100EP14 is a low skew 1-to-5 differential driver designed with clock distribution in mind accepting two clock sources into an input multiplexer. The ECL/PECL input signals can be either differential or single-ended (if the VBB output is used). HSTL inputs can be used when the LVEP14 is operating under PECL conditions. The EP14 specifically guarantees low output-to-output skew. Optimal design layout and processing minimize skew within a device and from device to device. To ensure that the tight skew specification is realized both sides of any differential output need to be terminated even if only one output is being used. If an output pair is unused both outputs may be left open (unterminated) without affecting skew. The common enable (ENbar) is synchronous outputs are enabled/disabled in the LOW state. This avoids a runt clock pulse when the device is enabled/disabled as can happen with an asynchronous control. The internal flip flop is locked on the falling edge of the input clock therefore all associated specification limits are referenced to the negative edge of the clock input. The VBB pin an internally generated voltage supply is available to this device only. For single-ended input conditions the unused differential input is connected to VBB as a switching reference voltage. VBB may also rebias AC coupled inputs. When used decouple VBB and VCC via a 0.01 uF capacitor and limit current sourcing or sinking to 0.5 mA. When not used VBB should be left open.
Clock Driver 2-IN ECL/PECL 20-Pin TSSOP Rail
The MC100EP14 is a low skew 1-to-5 differential driver designed with clock distribution in mind accepting two clock sources into an input multiplexer. The ECL/PECL input signals can be either differential or single-ended (if the VBB output is used). HSTL inputs can be used when the LVEP14 is operating under PECL conditions. The EP14 specifically guarantees low output-to-output skew. Optimal design layout and processing minimize skew within a device and from device to device. To ensure that the tight skew specification is realized both sides of any differential output need to be terminated even if only one output is being used. If an output pair is unused both outputs may be left open (unterminated) without affecting skew. The common enable (ENbar) is synchronous outputs are enabled/disabled in the LOW state. This avoids a runt clock pulse when the device is enabled/disabled as can happen with an asynchronous control. The internal flip flop is locked on the falling edge of the input clock therefore all associated specification limits are referenced to the negative edge of the clock input. The VBB pin an internally generated voltage supply is available to this device only. For single-ended input conditions the unused differential input is connected to VBB as a switching reference voltage. VBB may also rebias AC coupled inputs. When used decouple VBB and VCC via a 0.01 uF capacitor and limit current sourcing or sinking to 0.5 mA. When not used VBB should be left open.
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
09 April 2024
INA826AIDR Layout and Selection Guide
Ⅰ. Description of INA826AIDRⅡ. Pin configuration and functionsⅢ. Functional features of INA826AIDRⅣ. What impact does external resistance have on the stability of INA826AIDR?Ⅴ. Schematic diagram and working principle... -
10 April 2024
LM2904DT Dual Operational Amplifier: Features, Package and Specifications
Ⅰ. Overview of LM2904DTⅡ. Electrical characteristic curvesⅢ. Features of LM2904DTⅣ. Package of LM2904DTⅤ. Supply voltage and current requirements of LM2904DTⅥ. Specifications of LM2904DTⅦ. How to use LM2904DT in... -
10 April 2024
STM32F103CBT6 Microcontroller Features, Application and STM32F103CBT6 vs CKS32F103C8T6
Ⅰ. Description of STM32F103CBT6Ⅱ. Low-power modes of STM32F103CBT6Ⅲ. Functional features of STM32F103CBT6Ⅳ. Application fields of STM32F103CBT6Ⅴ. GPIO attributes and configuration process of STM32F103CBT6Ⅵ. How to program and debug... -
11 April 2024
A Complete Guide to IR2104 Half-Bridge Driver
Ⅰ. IR2104 descriptionⅡ. IR2104 half-bridge driver circuit characteristicsⅢ. IR2104 half-bridge driver working principleⅣ. Practical application of IR2104Ⅴ. Recommended operating conditions of IR2104Ⅵ. What are the heat dissipation measures...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.