COMMON I/O; 1 RECEIVER ACTIVE UNDER SHUTDOWN; TRISTATABLE RECEIVER
Differential Output:
YES
Driver Number of Bits:
1
High Level Input Current-Max:
0.00002 A
Input Characteristics:
DIFFERENTIAL SCHMITT TRIGGER
Interface IC Type:
LINE TRANSCEIVER
Interface Standard:
V.11; EIA-422-A; TIA-422-A; EIA-485; TIA-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
Out Swing-Min:
1.5 V
Output Low Current-Max:
0.016 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:
70 ns
Receiver Number of Bits:
1
Seated Height-Max:
1.75 mm
Supply Current-Max:
60 mA
Supply Voltage-Max:
5.25 V
Supply Voltage-Min:
4.75 V
Supply Voltage-Nom:
5 V
Surface Mount:
YES
Technology:
BIPOLAR
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:
60 ns
Width:
3.9 mm
DS36276M Frequently Asked Questions (FAQs)
Texas Instruments provides a recommended PCB layout in the datasheet, but it's essential to follow good PCB design practices, such as separating analog and digital grounds, using a solid ground plane, and minimizing trace lengths and loops. Additionally, placing decoupling capacitors close to the device and using a low-ESR capacitor for the VCC pin can help reduce noise and ensure reliable operation.
The DS36276M is a highly configurable device, and the optimal configuration depends on the specific application requirements. Engineers should consult the datasheet and application notes to determine the best settings for their use case. Additionally, Texas Instruments provides a Clock and Data Rate Calculator tool to help with configuration. It's also recommended to consult with TI's support team or a qualified engineer with experience in similar applications.
The DS36276M has a maximum junction temperature of 150°C, and engineers should ensure that the device operates within the recommended temperature range. Thermal management techniques, such as heat sinks, thermal vias, and thermal interface materials, can help reduce the device's temperature. Additionally, engineers should consider the thermal resistance of the PCB and the surrounding environment to ensure reliable operation in high-temperature environments.
To troubleshoot issues with the DS36276M, engineers should follow a systematic approach, starting with a review of the device's configuration and setup. They should then use tools like oscilloscopes and logic analyzers to analyze the clock and data signals. Texas Instruments also provides a troubleshooting guide in the datasheet and application notes, which can help identify and resolve common issues. Additionally, engineers can consult with TI's support team or online forums for further assistance.
The DS36276M is designed to meet various EMI and RFI regulations, such as CISPR 22 and FCC Part 15. Engineers should follow good design practices, such as using shielding, filtering, and grounding techniques, to minimize electromagnetic interference. They should also consult the datasheet and application notes for specific guidance on EMI and RFI considerations. Additionally, engineers may need to perform EMI and RFI testing to ensure compliance with relevant regulations and standards.
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DS36276M Overview
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About Texas Instruments
Texas Instruments (TI) designs and manufactures semiconductors and integrated circuits for a wide range of applications. The company's product portfolio includes analog chips, which are essential for managing power and signal functions in electronic devices, and embedded processors, which serve as the brains in various systems, enabling functionality in everything from industrial equipment to consumer electronics. TI's innovations in semiconductor technology have made it a leader in the industry.