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Overview of DS2505 by Rochester Electronics LLC
Note: Data for a part may vary between manufacturers. You can filter for manufacturers on the top of the page next to the part image and part number.
- Distributor Offerings: ( 0 listings )
- Number of FFF Equivalents: ( 0 replacements )
- CAD Models: ( Request Part )
- Number of Functional Equivalents: ( 0 options )
- Part Data Attributes ( Available )
- Reference Designs: ( Available )
CAD Models for DS2505 by Rochester Electronics LLC
Part Data Attributes for DS2505 by Rochester Electronics LLC
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|---|---|
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Pbfree Code
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No
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Rohs Code
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No
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Part Life Cycle Code
|
Active
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Ihs Manufacturer
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ROCHESTER ELECTRONICS INC
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Part Package Code
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TO-92
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Package Description
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TO-92,
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Pin Count
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3
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Reach Compliance Code
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unknown
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Additional Feature
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MICROLAN COMPATIBLE
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JESD-30 Code
|
O-PBCY-T3
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JESD-609 Code
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e0
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Memory Density
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16384 bit
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Memory IC Type
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OTP ROM
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Memory Width
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1
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Moisture Sensitivity Level
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NOT SPECIFIED
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Number of Functions
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1
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Number of Terminals
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3
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Number of Words
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16384 words
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Number of Words Code
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16000
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Operating Mode
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ASYNCHRONOUS
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Operating Temperature-Max
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85 °C
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Operating Temperature-Min
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-40 °C
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Organization
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16KX1
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Package Body Material
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PLASTIC/EPOXY
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Package Code
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TO-92
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Package Shape
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ROUND
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Package Style
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CYLINDRICAL
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Parallel/Serial
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SERIAL
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Peak Reflow Temperature (Cel)
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240
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Qualification Status
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COMMERCIAL
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Supply Voltage-Max (Vsup)
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6 V
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Supply Voltage-Min (Vsup)
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2.8 V
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Supply Voltage-Nom (Vsup)
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5 V
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Surface Mount
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NO
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Technology
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MOS
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Temperature Grade
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INDUSTRIAL
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Terminal Finish
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TIN LEAD
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Terminal Form
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THROUGH-HOLE
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Terminal Position
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BOTTOM
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Time@Peak Reflow Temperature-Max (s)
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20
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Resources and Additional Insights for DS2505
Reference Designs related to DS2505
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Advanced 1-Wire Network Driver
This document describes a microcontroller-based 1-Wire® master interface for reliable operation of small, medium, and large 1-Wire networks. This is accomplished using careful impedance matching, intelligent (software-controlled) active pullup, and slew-rate control. Software flow charts are included to assist the user in generating the correct 1-Wire timing for reset pulse, presence detect, write one, write zero, and read time slots using any suitable microcontroller. Scope traces illustrate the timing performance of the driver as well as transmission line effects as they appear with long cables.