TX2-L2-5V-1 footprint, schematic symbol and 3D model by Panasonic

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PCB Footprints

TX2-L2-5V-1 - Panasonic PCB footprint - Other - Other - TX2-L2-5V-1-1

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3D Models

TX2-L2-5V-1 - Panasonic - 3D model - Other - TX2-L2-5V-1-1

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Datasheet Download Datasheet
Stock & Prices Price & Stock for TX2-L2-5V-1
Part Number TX2-L2-5V-1
Manufacturer Panasonic
Pin Count 10
Part Category Relay or Contactor
Package Category Other
Footprint Name Other - TX2-L2-5V-1-1
Released Date Feb 19, 2022
Last Modified Date Jan 21, 2026 4:45 PM UTC
Pinout / Pin List Click Here (Member Only)

TX2-L2-5V-1 Details

Manufacturer Part Number:
TX2-L2-5V-1
Pbfree Code:
Yes
Rohs Code:
Yes
Part Life Cycle Code:
Active
Package Description:
ROHS COMPLIANT
ECCN Code:
EAR99
HTS Code:
8536.49.00.50
Factory Lead Time:
18 Weeks
Manufacturer:
Panasonic Electronic Components
YTEOL:
7.87
Body Breadth:
7.4 mm
Body Height:
8.2 mm
Body Length or Diameter:
15 mm
Coil Current(DC)-Max:
0.04 A
Coil Operate Voltage(DC):
3.75 V
Coil Power:
200 mW
Coil Release Voltage(DC):
3.75 V
Coil Resistance:
125 Ω
Coil Voltage(DC)-Max:
5 V
Coil Voltage-Nom:
5 V
Coil/Input Supply Type:
DC
Contact Current(DC)-Max:
1 A
Contact (DC) Max Power Rating R Load:
60W@220VDC
Contact (DC) Max Rating R Load:
1A@220VDC
Contact Resistance:
100 mΩ
Contact Voltage(DC)-Max:
220 V
Contact/Output Supply Type:
DC
Electrical Life:
100000 Cycle(s)
End Contact Material:
Silver
End Contact Plating:
GOLD
Input Switching Control Type:
Random
Insulation Resistance:
1000000000 Ω
Mounting Feature:
THROUGH HOLE-STRAIGHT
Number of Terminals:
10
Operate Time:
4 ms
Operating Temperature-Max:
85 °C
Operating Temperature-Min:
-40 °C
Packing Method:
TUBE
Physical Dimension:
15mm x 7.4mm x 8.2mm
Reference Standard:
BSI; CSA; UL
Relay Action:
LATCHED
Relay Form:
2 FORM C
Relay Function:
DPDT
Relay Type:
POWER/SIGNAL RELAY
Release Time:
4 ms
Sealing:
WATER PROOF
Surface Mount:
NO
Terminal Length:
0.003500127000254001 inch
Termination Type:
SOLDER

TX2-L2-5V-1 Frequently Asked Questions (FAQs)

Panasonic provides a recommended PCB layout and land pattern in their application notes or design guides. It's essential to follow these guidelines to ensure proper relay operation and to prevent overheating or electrical noise issues.
To ensure proper relay operation, it's crucial to follow the recommended drive circuit and control methodology outlined in the datasheet or application notes. This includes selecting the correct driver IC, setting the appropriate drive voltage and current, and implementing proper timing and sequencing.
To prevent voltage surges and electromagnetic interference (EMI), it's essential to implement proper coil suppression and surge protection measures, such as adding a freewheeling diode, snubber circuit, or transient voltage suppressor (TVS) diode.
Contact bounce is a common issue in relays, causing multiple on/off transitions. To mitigate this, engineers can implement debouncing techniques, such as using a capacitor to filter out the bounce, or using a debouncing IC or software-based debouncing algorithms.
To ensure reliable operation, it's essential to consider thermal management. This includes providing adequate airflow, using thermal interfaces or heat sinks, and following Panasonic's recommended operating temperature range and derating guidelines.

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TX2-L2-5V-1 Overview

Use the download button to access the TX2-L2-5V-1 schematic symbol, PCB footprint, and 3D model.

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TX2-L2-5V-1 - Panasonic

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