Maxim Integrated DS1005M-175
- Part Number:
- DS1005M-175
- Manufacturer:
- Maxim Integrated
- Ventron No:
- 2984160-DS1005M-175
- Description:
- IC DELAY LINE 5TAP 175NS 8DIP
- ECAD Model:
-
- Datasheet:
- DS1005M-175
Maxim Integrated DS1005M-175 technical specifications, attributes, parameters and parts with similar specifications to Maxim Integrated DS1005M-175 .
- Mounting TypeThrough Hole
- Package / Case8-DIP (0.300, 7.62mm)
- Surface MountNO
- Operating Temperature0°C~70°C
- PackagingTube
- JESD-609 Codee3
- Pbfree Codeyes
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations8
- Terminal FinishMATTE TIN
- TechnologyCMOS
- Voltage - Supply4.75V~5.25V
- Terminal PositionDUAL
- Peak Reflow Temperature (Cel)260
- Supply Voltage5V
- Reach Compliance Codeunknown
- Reflow Temperature-Max (s)NOT SPECIFIED
- JESD-30 CodeR-PDIP-T8
- FunctionNonprogrammable
- Qualification StatusCOMMERCIAL
- FamilyCMOS/TTL
- Output PolarityTRUE
- Logic IC TypeSILICON DELAY LINE
- Number of Taps/Steps5
- Number of Independent Delays1
- Delay to 1st Tap35ns
- Programmable Delay LineNO
- Available Total Delays175ns
- Total Delay-Nom (td)175 ns
- Width7.62mm
- RoHS StatusROHS3 Compliant
DS1005M-175 Overview
The product is packaged using Tube in order to maximize its cost-effectiveness. Using the 8-DIP (0.300, 7.62mm) package eliminates the need for additional insulating hardware in applications. The supply voltage of 4.75V~5.25V makes reliable performance possible. As the mounting method, the Through Hole technique is used. It operates at a temperature of 0°C~70°C. A 5 tap/step configuration is provided. DUAL is the location of the terminals. As part of its unique configuration, it is equipped with 8 terminations. When operating, a voltage of 5V is provided. It uses SILICON DELAY LINE as a logic type. This technology was developed as a result of the advanced CMOS technology. The CMOS/TTL family contains a significant amount of CMOS/TTL.
DS1005M-175 Features
Supply voltage at Tube volts
operate supply current at 5V
with SILICON DELAY LINE bits
stay resistance at CMOS/TTL
DS1005M-175 Applications
There are a lot of Rochester Electronics, LLC DS1005M-175 Delay Lines Timing ICs applications.
Clock Synchronization
Embedded Systems
Digital Test Equipment
System Calibration
Utility Meters
RF ATE applications
Broadband test and measurement
High Vibration, High Acceleration Environments
Clock De-Skewing
Delay Matching
The product is packaged using Tube in order to maximize its cost-effectiveness. Using the 8-DIP (0.300, 7.62mm) package eliminates the need for additional insulating hardware in applications. The supply voltage of 4.75V~5.25V makes reliable performance possible. As the mounting method, the Through Hole technique is used. It operates at a temperature of 0°C~70°C. A 5 tap/step configuration is provided. DUAL is the location of the terminals. As part of its unique configuration, it is equipped with 8 terminations. When operating, a voltage of 5V is provided. It uses SILICON DELAY LINE as a logic type. This technology was developed as a result of the advanced CMOS technology. The CMOS/TTL family contains a significant amount of CMOS/TTL.
DS1005M-175 Features
Supply voltage at Tube volts
operate supply current at 5V
with SILICON DELAY LINE bits
stay resistance at CMOS/TTL
DS1005M-175 Applications
There are a lot of Rochester Electronics, LLC DS1005M-175 Delay Lines Timing ICs applications.
Clock Synchronization
Embedded Systems
Digital Test Equipment
System Calibration
Utility Meters
RF ATE applications
Broadband test and measurement
High Vibration, High Acceleration Environments
Clock De-Skewing
Delay Matching
DS1005M-175 More Descriptions
8-DIP (0.300 7.62mm) e3 DS1005 Obsolete delay line IC 7.62mm 35ns 5V 1999
Silicon Delay Line, 1-Func, 5-Tap, True Output, CMOS, PDIP8
Silicon Delay Line 5-Tap 1-Input 35ns ABS 175ns 8-Pin DIP
DS1005 5-TAP SILICON DELAY LINE
Silicon Delay Line, 1-Func, 5-Tap, True Output, CMOS, PDIP8
Silicon Delay Line 5-Tap 1-Input 35ns ABS 175ns 8-Pin DIP
DS1005 5-TAP SILICON DELAY LINE
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