ON Semiconductor MC100EP196BMNG
- Part Number:
- MC100EP196BMNG
- Manufacturer:
- ON Semiconductor
- Ventron No:
- 2982712-MC100EP196BMNG
- Description:
- IC DELAY LINE 1024TAP PROG 32QFN
- Datasheet:
- MC100EP196BMNG
ON Semiconductor MC100EP196BMNG technical specifications, attributes, parameters and parts with similar specifications to ON Semiconductor MC100EP196BMNG.
- Factory Lead Time5 Weeks
- Lifecycle StatusACTIVE (Last Updated: 3 days ago)
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / Case32-VFQFN Exposed Pad
- Number of Pins32
- Operating Temperature-40°C~85°C
- PackagingTube
- Published2006
- Series100EP
- JESD-609 Codee3
- Pbfree Codeyes
- Part StatusActive
- Moisture Sensitivity Level (MSL)2 (1 Year)
- Number of Terminations32
- Terminal FinishTin (Sn)
- Additional FeatureNECL MODE: VCC=0 WITH VEE=-3.0 V TO -3.6 V
- SubcategoryDelay Lines
- TechnologyECL
- Voltage - Supply3V~3.6V
- Terminal PositionQUAD
- Peak Reflow Temperature (Cel)260
- Supply Voltage3.3V
- Depth5mm
- Reflow Temperature-Max (s)40
- Base Part NumberMC100EP196B
- FunctionProgrammable
- Supply Voltage-Max (Vsup)3.6V
- Power Supplies-3.3V
- Supply Voltage-Min (Vsup)3V
- Propagation Delay2.5 ns
- Max Input Voltage2.42V
- Halogen FreeHalogen Free
- Output PolarityCOMPLEMENTARY
- Number of Taps/Steps1024
- Number of Independent Delays1
- Programmable Delay LineYES
- Available Total Delays2.5ns ~ 13ns
- Total Delay-Nom (td)12.4 ns
- Tap Increment10ps
- Height950μm
- Length5mm
- Width5mm
- Radiation HardeningNo
- RoHS StatusROHS3 Compliant
- Lead FreeLead Free
MC100EP196BMNG Overview
As a cost-effective packaging method, Tube is used. With the 32-VFQFN Exposed Pad package, additional insulation hardware is no longer required. Reliable performance is ensured by the supply voltage of 3V~3.6V. It is mounted using the technique of Surface Mount. It operates at a temperature of -40°C~85°C. 1024 taps/steps are configured. The use of related parts with the same base part number MC100EP196B is universally preferred for a wide range of applications. A terminal is located at QUAD. It is equipped with 32 terminations for unique configuration. The supply voltage of 3.3V is provided when operating. Developed on the basis of advanced ECL technology. As a result, it provides all the benefits of the subcategory of Delay Lines. With the minimum supply voltage of 3V, it is acceptable for it to operate. Using a maximum supply voltage of 3.6V is acceptable for it to operate. Surface Mount is mounted in the way. Providing flexible power supplies is part of the design of -3.3V. An arrangement of 32 pins is used in its design. Its NECL MODE: VCC=0 WITH VEE=-3.0 V TO -3.6 V coupled with other specific characteristics make it suitable for a variety of applications. An important electronic device of the 100EP series, it belongs to this group.
MC100EP196BMNG Features
Supply voltage at Tube volts
operate supply current at 3.3V
supply type: -3.3V
Mounting Type: 100EP
MC100EP196BMNG Applications
There are a lot of ON Semiconductor MC100EP196BMNG Delay Lines Timing ICs applications.
Broadband test and measurement
Switch Debouncing
Utility Meters
Clock De-Skewing
Delay Matching
QDR/QDRII Memory Systems
RF ATE applications
High Vibration, High Acceleration Environments
Network Hubs, Bridges, and Routers
Telecommunications
As a cost-effective packaging method, Tube is used. With the 32-VFQFN Exposed Pad package, additional insulation hardware is no longer required. Reliable performance is ensured by the supply voltage of 3V~3.6V. It is mounted using the technique of Surface Mount. It operates at a temperature of -40°C~85°C. 1024 taps/steps are configured. The use of related parts with the same base part number MC100EP196B is universally preferred for a wide range of applications. A terminal is located at QUAD. It is equipped with 32 terminations for unique configuration. The supply voltage of 3.3V is provided when operating. Developed on the basis of advanced ECL technology. As a result, it provides all the benefits of the subcategory of Delay Lines. With the minimum supply voltage of 3V, it is acceptable for it to operate. Using a maximum supply voltage of 3.6V is acceptable for it to operate. Surface Mount is mounted in the way. Providing flexible power supplies is part of the design of -3.3V. An arrangement of 32 pins is used in its design. Its NECL MODE: VCC=0 WITH VEE=-3.0 V TO -3.6 V coupled with other specific characteristics make it suitable for a variety of applications. An important electronic device of the 100EP series, it belongs to this group.
MC100EP196BMNG Features
Supply voltage at Tube volts
operate supply current at 3.3V
supply type: -3.3V
Mounting Type: 100EP
MC100EP196BMNG Applications
There are a lot of ON Semiconductor MC100EP196BMNG Delay Lines Timing ICs applications.
Broadband test and measurement
Switch Debouncing
Utility Meters
Clock De-Skewing
Delay Matching
QDR/QDRII Memory Systems
RF ATE applications
High Vibration, High Acceleration Environments
Network Hubs, Bridges, and Routers
Telecommunications
MC100EP196BMNG More Descriptions
MC100EP196B Series 1.2 GHz 3.6 V ECL Programmable Delay Chip With FTUNE-QFN-32
Active Programmable Delay Line 1-IN 0.01ns ABS 12.4ns MAX 32-Pin QFN EP Rail
Programmable Delay Chip 1024Tap 12.4Ns Qfn32; Total Delay Time:12.4Ns; Delay Time Per Tap:10Ps; No. Of Taps:1024; Supply Voltage Min:3V; Supply Voltage Max:3.6V; Digital Ic Case:Qfn; No. Of Pins:32Pins; Operating Temperature Max:85°Crohs Compliant: Yes |Onsemi MC100EP196BMNG
Active Programmable Delay Line 1-IN 0.01ns ABS 12.4ns MAX 32-Pin QFN EP Rail
Programmable Delay Chip 1024Tap 12.4Ns Qfn32; Total Delay Time:12.4Ns; Delay Time Per Tap:10Ps; No. Of Taps:1024; Supply Voltage Min:3V; Supply Voltage Max:3.6V; Digital Ic Case:Qfn; No. Of Pins:32Pins; Operating Temperature Max:85°Crohs Compliant: Yes |Onsemi MC100EP196BMNG
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
15 March 2024
ULN2003 Alternatives, Characteristics, Working Principle and Application
Ⅰ. ULN2003 overviewⅡ. What are the characteristics of ULN2003?Ⅲ. Pin diagram and functions of ULN2003Ⅳ. Working principle and function of ULN2003Ⅴ. ULN2003 drive circuit diagramⅥ. Where is ULN2003... -
15 March 2024
Detailed Explanation of 24C02 EEPROM Memory Chip
Ⅰ. Overview of 24C02Ⅱ. Functions of 24C02Ⅲ. Basic operations of 24C02Ⅳ. Application of 24C02Ⅴ. 24C02 pinoutⅥ. How to protect the data of 24C02?Ⅶ. How to use 24C02?EEPROM refers... -
18 March 2024
LM324N Internal Structure, Working Principle and LM324 vs LM324N
Ⅰ. Overview of LM324NⅡ. Internal structure and working principle of LM324NⅢ. Typical performance characteristics of LM324NⅣ. How to configure the power supply for LM324N?Ⅴ. Pin description of LM324NⅥ.... -
18 March 2024
TDA7377 Audio Power Amplifier Alternatives, Application and Other Details
Ⅰ. Overview of TDA7377Ⅱ. Performance evaluation of TDA7377Ⅲ. Internal circuit diagram of TDA7377Ⅳ. Application of TDA7377Ⅴ. PCB-layout grounding of TDA7377Ⅵ. TDA7377 power amplifier chip parametersⅦ. How to ensure...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.