Datasheets
TRS208IDW by: Texas Instruments

IC QUAD LINE TRANSCEIVER, PDSO24, GREEN, PLASTIC, SOIC-24, Line Driver or Receiver

Part Details for TRS208IDW by Texas Instruments

Results Overview of TRS208IDW by Texas Instruments

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.

TRS208IDW Information

TRS208IDW 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 TRS208IDW

Part # Distributor Description Stock Price Buy
DISTI # 86152626
Verical Quad Transmitter/Receiver RS-232 24-Pin SOIC Tube RoHS: Compliant Min Qty: 216 Package Multiple: 1 Date Code: 1001 Americas - 1336
  • 216 $1.7375
  • 500 $1.6625
  • 1,000 $1.5750
$1.5750 / $1.7375 Buy Now
Rochester Electronics Line Transceiver, 4 Func, 4 Driver, 4 Rcvr, PDSO24 RoHS: Compliant Status: Obsolete Min Qty: 1 1336
  • 1 $1.4800
  • 25 $1.4500
  • 100 $1.3900
  • 500 $1.3300
  • 1,000 $1.2600
$1.2600 / $1.4800 Buy Now

Part Details for TRS208IDW

TRS208IDW CAD Models

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TRS208IDW Part Data Attributes

TRS208IDW Texas Instruments
Buy Now Datasheet
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TRS208IDW Texas Instruments IC QUAD LINE TRANSCEIVER, PDSO24, GREEN, PLASTIC, SOIC-24, Line Driver or Receiver
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Rohs Code Yes
Part Life Cycle Code Obsolete
Ihs Manufacturer TEXAS INSTRUMENTS INC
Part Package Code SOIC
Package Description GREEN, PLASTIC, SOIC-24
Pin Count 24
Reach Compliance Code unknown
ECCN Code EAR99
HTS Code 8542.39.00.01
Differential Output NO
Driver Number of Bits 4
High Level Input Current-Max 0.0002 A
Input Characteristics SCHMITT TRIGGER
Interface IC Type LINE TRANSCEIVER
Interface Standard EIA-232-F; TIA-232-F; V.28
JESD-30 Code R-PDSO-G24
Length 15.4 mm
Number of Functions 4
Number of Terminals 24
Operating Temperature-Max 85 °C
Operating Temperature-Min -40 °C
Out Swing-Min 10 V
Output Low Current-Max 0.0016 A
Package Body Material PLASTIC/EPOXY
Package Code SOP
Package Equivalence Code SOP24,.4
Package Shape RECTANGULAR
Package Style SMALL OUTLINE
Peak Reflow Temperature (Cel) NOT SPECIFIED
Qualification Status Not Qualified
Receive Delay-Max 10000 ns
Receiver Number of Bits 4
Seated Height-Max 2.65 mm
Supply Current-Max 20 mA
Supply Voltage-Max 5.5 V
Supply Voltage-Min 4.5 V
Supply Voltage-Nom 5 V
Surface Mount YES
Temperature Grade INDUSTRIAL
Terminal Form GULL WING
Terminal Pitch 1.27 mm
Terminal Position DUAL
Time@Peak Reflow Temperature-Max (s) NOT SPECIFIED
Width 7.5 mm

Alternate Parts for TRS208IDW

This table gives cross-reference parts and alternative options found for TRS208IDW. 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 TRS208IDW, 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
TRS208IDWR Texas Instruments $0.9320 5-V quad channel 120kbps RS-232 line driver/receiver with +/-9V output & +/-15-kV ESD protection 24-SOIC -40 to 85 TRS208IDW vs TRS208IDWR
TRS208IDWRG4 Texas Instruments Check for Price QUAD LINE TRANSCEIVER, PDSO24, GREEN, PLASTIC, SOIC-24 TRS208IDW vs TRS208IDWRG4
Part Number Manufacturer Composite Price Description Compare
MAX206EWG Rochester Electronics LLC Check for Price Line Driver, 3 Func, 4 Driver, CMOS, PDSO24, SO-24 TRS208IDW vs MAX206EWG
ADM209ARSZ Analog Devices Inc Check for Price IC TRIPLE LINE TRANSCEIVER, PDSO24, MO-150AG, SSOP-24, Line Driver or Receiver TRS208IDW vs ADM209ARSZ
HIN209IP Harris Semiconductor Check for Price Line Transceiver, 1 Func, 3 Driver, 5 Rcvr, CMOS, PDIP24 TRS208IDW vs HIN209IP
MAX206CWG+T Maxim Integrated Products Check for Price Line Driver, 3 Func, 4 Driver, 3 Rcvr, CMOS, PDSO24, SO-24 TRS208IDW vs MAX206CWG+T
HIN237ACA Intersil Corporation Check for Price LINE TRANSCEIVER, PDSO24 TRS208IDW vs HIN237ACA
HIN207IA Intersil Corporation Check for Price LINE TRANSCEIVER, PDSO24 TRS208IDW vs HIN207IA
ICL3207ECBZ Renesas Electronics Corporation Check for Price Low Power, +3V To +5.5V, 250kbps, RS-232 Transmitters/Receivers, SOICW, /Tube TRS208IDW vs ICL3207ECBZ
SP208EET-L/TR MaxLinear Inc Check for Price Line Transceiver, 4 Func, 4 Driver, 4 Rcvr, CMOS, PDSO24, LEAD FREE, PLASTIC, SOIC-24 TRS208IDW vs SP208EET-L/TR
ADM1486ARM-REEL7 Analog Devices Inc Check for Price IC LINE TRANSCEIVER, PDSO8, MICRO, SOIC-8, Line Driver or Receiver TRS208IDW vs ADM1486ARM-REEL7
ICL3243EIB-T Intersil Corporation Check for Price TRIPLE LINE TRANSCEIVER, PDSO28, PLASTIC, MS-013-AE, SOIC-28 TRS208IDW vs ICL3243EIB-T

TRS208IDW Related Parts

TRS208IDW Frequently Asked Questions (FAQ)

  • Texas Instruments recommends a 4-layer PCB with a solid ground plane, and to keep the analog and digital signals separate. Additionally, use a ferrite bead or a 10-ohm resistor in series with the VCC pin to reduce high-frequency noise.

  • Use a high-quality, low-ESR capacitor (e.g., 10uF, 10V, X7R) as close as possible to the VCC pin, and add a 100nF capacitor in parallel for high-frequency decoupling. Ensure the power supply is stable and can provide the required current.

  • The TRS208IDW is rated for operation from -40°C to 125°C (junction temperature). However, the device's accuracy and performance may degrade at extreme temperatures. Ensure proper thermal management and heat dissipation in your design.

  • Consult the TRS208IDW datasheet and application notes for guidance on selecting the correct gain, bandwidth, and output configuration for your specific use case. You may also need to adjust the input impedance, output load, and filtering to optimize performance.

  • Common sources of error include input offset voltage, gain error, and noise. To mitigate these, use a high-precision voltage reference, ensure proper PCB layout and routing, and add filtering or averaging to reduce noise. Additionally, consider using a more accurate or higher-precision op-amp if required.