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Part Details for DS36C278M by Texas Instruments
Results Overview of DS36C278M by Texas Instruments
- Distributor Offerings: (1 listing)
- Number of FFF Equivalents: (10 replacements)
- CAD Models: (Available)
- Number of Functional Equivalents: (0 options)
- Part Data Attributes: (Available)
- Reference Designs: (Not Available)
Tip: 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.
Applications
Industrial Automation
Renewable Energy
Robotics and Drones
DS36C278M Information
DS36C278M by Texas Instruments is a Line Driver or Receiver.
Line Driver or Receivers are under the broader part category of Drivers And Interfaces.
A driver controls the current or voltage delivered to components like LCDs or motors, while an interface component connects systems for data transfer and control. Read more about Drivers And Interfaces on our Drivers And Interfaces part category page.
Price & Stock for DS36C278M
| Part # | Distributor | Description | Stock | Price | Buy | |
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Vyrian | Peripheral ICs | 153 |
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RFQ |
Part Details for DS36C278M
DS36C278M CAD Models
DS36C278M Part Data Attributes
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DS36C278M
Texas Instruments
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Datasheet
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DS36C278M
Texas Instruments
LINE TRANSCEIVER, PDSO8, PLASTIC, SOIC-8
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| Pbfree Code | No | |
| Rohs Code | No | |
| Part Life Cycle Code | Obsolete | |
| Ihs Manufacturer | TEXAS INSTRUMENTS INC | |
| Part Package Code | SOIC | |
| Package Description | 0.150 INCH, SOIC-8 | |
| Pin Count | 8 | |
| Reach Compliance Code | not_compliant | |
| ECCN Code | EAR99 | |
| HTS Code | 8542.39.00.01 | |
| Samacsys Manufacturer | Texas Instruments | |
| Differential Output | YES | |
| Driver Number of Bits | 1 | |
| High Level Input Current-Max | 0.000002 A | |
| Input Characteristics | DIFFERENTIAL SCHMITT TRIGGER | |
| Interface IC Type | LINE TRANSCEIVER | |
| Interface Standard | EIA-422-B; TIA-442-B; EIA-485 | |
| JESD-30 Code | R-PDSO-G8 | |
| JESD-609 Code | e0 | |
| Length | 4.9 mm | |
| Moisture Sensitivity Level | 1 | |
| Number of Functions | 1 | |
| Number of Terminals | 8 | |
| Operating Temperature-Max | 70 °C | |
| Operating Temperature-Min | ||
| Out Swing-Min | 1.5 V | |
| Output Low Current-Max | 0.004 A | |
| Package Body Material | PLASTIC/EPOXY | |
| Package Code | SOP | |
| Package Equivalence Code | SOP8,.25 | |
| Package Shape | RECTANGULAR | |
| Package Style | SMALL OUTLINE | |
| Peak Reflow Temperature (Cel) | 235 | |
| Qualification Status | Not Qualified | |
| Receive Delay-Max | 400 ns | |
| Receiver Number of Bits | 1 | |
| Seated Height-Max | 1.753 mm | |
| Supply Current-Max | 0.5 mA | |
| Supply Voltage-Max | 5.25 V | |
| Supply Voltage-Min | 4.75 V | |
| Supply Voltage-Nom | 5 V | |
| Surface Mount | YES | |
| Technology | CMOS | |
| Temperature Grade | COMMERCIAL | |
| Terminal Finish | TIN LEAD | |
| Terminal Form | GULL WING | |
| Terminal Pitch | 1.27 mm | |
| Terminal Position | DUAL | |
| Time@Peak Reflow Temperature-Max (s) | 20 | |
| Transmit Delay-Max | 80 ns | |
| Width | 3.9 mm |
Alternate Parts for DS36C278M
This table gives cross-reference parts and alternative options found for DS36C278M. The Form Fit Function (FFF) tab will give you the options that are more likely to serve as direct pin-to-pin alternates or drop-in parts. The Functional Equivalents tab will give you options that are likely to match the same function of DS36C278M, but it may not fit your design. Always verify details of parts you are evaluating, as these parts are offered as suggestions for what you are looking for and are not guaranteed.
| Part Number | Manufacturer | Composite Price | Description | Compare |
|---|---|---|---|---|
| DS36C278TMX/NOPB | Texas Instruments | Check for Price | Low Power Multipoint TIA/EIA-485 Transceiver 8-SOIC 0 to 70 | DS36C278M vs DS36C278TMX/NOPB |
| DS36C278TMX/NOPB | National Semiconductor Corporation | Check for Price | IC LINE TRANSCEIVER, PDSO8, 0.150 INCH, PLASTIC, SOIC-8, Line Driver or Receiver | DS36C278M vs DS36C278TMX/NOPB |
| DS36C278M | Rochester Electronics LLC | Check for Price | LINE TRANSCEIVER, PDSO8, PLASTIC, SOIC-8 | DS36C278M vs DS36C278M |
| DS36C278TM/NOPB | National Semiconductor Corporation | Check for Price | IC LINE TRANSCEIVER, PDSO8, PLASTIC, SOIC-8, Line Driver or Receiver | DS36C278M vs DS36C278TM/NOPB |
| DS36C278TM | National Semiconductor Corporation | Check for Price | IC LINE TRANSCEIVER, PDSO8, PLASTIC, SOIC-8, Line Driver or Receiver | DS36C278M vs DS36C278TM |
| DS36C278TMX | Rochester Electronics LLC | Check for Price | LINE TRANSCEIVER, PDSO8, 0.150 INCH, PLASTIC, SOIC-8 | DS36C278M vs DS36C278TMX |
| DS36C278TMX | Texas Instruments | Check for Price | Low Power Multipoint TIA/EIA-485 Transceiver 8-SOIC 0 to 70 | DS36C278M vs DS36C278TMX |
| DS36C278MX | Texas Instruments | Check for Price | LINE TRANSCEIVER, PDSO8, 0.150 INCH, PLASTIC, SOIC-8 | DS36C278M vs DS36C278MX |
| DS36C278TM/NOPB | Texas Instruments | Check for Price | Low Power Multipoint TIA/EIA-485 Transceiver 8-SOIC 0 to 70 | DS36C278M vs DS36C278TM/NOPB |
| DS36C278MX | National Semiconductor Corporation | Check for Price | IC LINE TRANSCEIVER, PDSO8, 0.150 INCH, PLASTIC, SOIC-8, Line Driver or Receiver | DS36C278M vs DS36C278MX |
DS36C278M Frequently Asked Questions (FAQ)
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Texas Instruments provides a recommended PCB layout in the DS36C278M datasheet, but it's essential to follow good PCB design practices, such as using a solid ground plane, minimizing trace lengths, and keeping sensitive analog signals away from digital signals.
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To ensure accurate temperature measurement, it's crucial to follow proper thermal design guidelines, such as using a thermally conductive material for the PCB, minimizing thermal gradients, and calibrating the device according to the datasheet instructions.
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The maximum cable length for the DS36C278M's differential output depends on the specific application and the signal frequency. As a general rule, keep the cable length as short as possible (less than 10 inches) to minimize signal degradation and noise pickup.
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Yes, the DS36C278M is designed to operate in high-vibration environments. However, it's essential to follow proper mounting and mechanical design guidelines to ensure the device's reliability and accuracy.
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To minimize EMI, use proper shielding, grounding, and filtering techniques. Ensure that the device is placed in a shielded enclosure, and use twisted-pair or shielded cables for the differential output. Additionally, follow good PCB design practices to minimize radiation and susceptibility to EMI.