Part Details for SN65LVDS250DBT by Texas Instruments
Results Overview of SN65LVDS250DBT by Texas Instruments
- Distributor Offerings: (2 listings)
- Number of FFF Equivalents: (0 replacements)
- Tariff Estimator: (Available) NEW
- Number of Functional Equivalents: (6 options)
- CAD Models: (Available)
- Part Data Attributes: (Available)
- Reference Designs: (Not Available)
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Applications
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Audio and Video Systems
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Entertainment and Gaming
SN65LVDS250DBT Information
SN65LVDS250DBT by Texas Instruments is a Multiplexer or Switch.
Multiplexers or Switches are under the broader part category of Signal Circuits.
A signal is an electronic means of transmitting information, either as an analog signal with continuous values or a digital signal with discrete values. Signals are used in various systems and networks. Read more about Signal Circuits on our Signal Circuits part category page.
Price & Stock for SN65LVDS250DBT
| Part # | Distributor | Description | Stock | Price | Buy | |
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Rochester Electronics | Cross Point Switch, 1 Func, 4 Channel, BICMOS, PDSO38 RoHS: Compliant Status: Active Min Qty: 1 | 555 |
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$9.9300 / $12.4100 | Buy Now |
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LCSC | 4/4 3V3.6V TSSOP-38-4.4mm Signal Switches Multiplexers Decoders RoHS | 3 |
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$19.4133 / $20.0570 | Buy Now |
US Tariff Estimator: SN65LVDS250DBT by Texas Instruments
Calculations from this tool are estimations only for imports into the United States. Please refer to the distributor or manufacturer and reference official US government sources and authorities to verify any final purchase costs.
Part Details for SN65LVDS250DBT
SN65LVDS250DBT CAD Models
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SN65LVDS250DBT Part Data Attributes
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SN65LVDS250DBT
Texas Instruments
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Datasheet
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SN65LVDS250DBT
Texas Instruments
2.0-Gbps 4x4 crosspoint switch 38-TSSOP -40 to 85
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| Pbfree Code | Yes | |
| Rohs Code | Yes | |
| Part Life Cycle Code | Active | |
| Part Package Code | TSSOP | |
| Package Description | Tssop, Tssop38,.25,20 | |
| Pin Count | 38 | |
| Reach Compliance Code | Compliant | |
| ECCN Code | EAR99 | |
| HTS Code | 8542.39.00.60 | |
| Analog IC - Other Type | Cross Point Switch | |
| JESD-30 Code | R-PDSO-G38 | |
| JESD-609 Code | e4 | |
| Length | 9.7 Mm | |
| Moisture Sensitivity Level | 2 | |
| Number of Channels | 4 | |
| Number of Functions | 1 | |
| Number of Terminals | 38 | |
| Operating Temperature-Max | 85 °C | |
| Operating Temperature-Min | -40 °C | |
| Output | Separate Output | |
| Package Body Material | Plastic/Epoxy | |
| Package Code | TSSOP | |
| Package Equivalence Code | TSSOP38,.25,20 | |
| Package Shape | Rectangular | |
| Package Style | Small Outline, Thin Profile, Shrink Pitch | |
| Peak Reflow Temperature (Cel) | 260 | |
| Qualification Status | Not Qualified | |
| Seated Height-Max | 1.2 Mm | |
| Supply Current-Max (Isup) | 0.145 Ma | |
| Supply Voltage-Max (Vsup) | 3.6 V | |
| Supply Voltage-Min (Vsup) | 3 V | |
| Supply Voltage-Nom (Vsup) | 3.3 V | |
| Surface Mount | Yes | |
| Switch-off Time-Max | 6 Ns | |
| Switch-on Time-Max | 300 Ns | |
| Technology | Bicmos | |
| Temperature Grade | Industrial | |
| Terminal Finish | Nickel/Palladium/Gold (Ni/Pd/Au) | |
| Terminal Form | Gull Wing | |
| Terminal Pitch | 0.5 Mm | |
| Terminal Position | Dual | |
| Time@Peak Reflow Temperature-Max (s) | 30 | |
| Width | 4.4 Mm |
Alternate Parts for SN65LVDS250DBT
This table gives cross-reference parts and alternative options found for SN65LVDS250DBT. 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 SN65LVDS250DBT, 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 |
|---|---|---|---|---|
| SN65LVDT250DBT | Texas Instruments | $9.8122 | 2.0-Gbps 4x4 crosspoint switch 38-TSSOP -40 to 85 | SN65LVDS250DBT vs SN65LVDT250DBT |
| SN65LVDS250DBTRG4 | Texas Instruments | Check for Price | 2.0-Gbps 4x4 crosspoint switch 38-TSSOP -40 to 85 | SN65LVDS250DBT vs SN65LVDS250DBTRG4 |
| SN65LVDS250DBTR | Texas Instruments | Check for Price | 2.0-Gbps 4x4 crosspoint switch 38-TSSOP -40 to 85 | SN65LVDS250DBT vs SN65LVDS250DBTR |
| SN65LVDT250DBTG4 | Texas Instruments | Check for Price | 4-CHANNEL, CROSS POINT SWITCH, PDSO38, GREEN, PLASTIC, TSSOP-38 | SN65LVDS250DBT vs SN65LVDT250DBTG4 |
| SN65LVDT250DBTR | Texas Instruments | Check for Price | 2.0-Gbps 4x4 crosspoint switch 38-TSSOP -40 to 85 | SN65LVDS250DBT vs SN65LVDT250DBTR |
| SN65LVDS250DBTG4 | Texas Instruments | Check for Price | 2.0 Gbps 4x4 Crosspoint Switch 38-TSSOP -40 to 85 | SN65LVDS250DBT vs SN65LVDS250DBTG4 |
SN65LVDS250DBT Frequently Asked Questions (FAQ)
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The maximum cable length supported by the SN65LVDS250DBT is approximately 10 meters (33 feet) at a data rate of 655 Mbps. However, this length can vary depending on the specific application, cable quality, and noise environment.
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The SN65LVDS250DBT requires a 100-ohm differential termination resistor at the receiving end of the differential pair. This termination resistor should be placed as close to the receiver as possible to minimize reflections and ensure signal integrity.
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The power consumption of the SN65LVDS250DBT depends on the operating frequency and the load capacitance. Typically, the device consumes around 150 mW of power when operating at 655 Mbps with a 100-ohm load. However, this value can vary depending on the specific application and operating conditions.
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While the SN65LVDS250DBT is designed for LVDS applications, it can be used for other differential signaling applications with some limitations. However, the device's performance and signal integrity may not be optimal for non-LVDS applications, and additional circuitry or components may be required to ensure reliable operation.
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To ensure signal integrity and minimize EMI in your SN65LVDS250DBT design, follow best practices for PCB layout, such as using differential pairs, minimizing trace lengths, and using shielding and grounding techniques. Additionally, ensure that the device is properly terminated, and consider using EMI filters or common-mode chokes to reduce emissions.