TE Connectivity TLA3A Series Metal Foil Current Sensing Surface Mount Resistor 2512 Case 4mΩ ±1% 1W ±75ppm/°C
- BMUK Part # :-219-986
- BrandTE Connectivity
- Mfr. Part No.TL3A R004 1%
- You will get a pack of 5 resistors
Product Details
TL3A Series SMD Current Sense Resistors
2512 format
Up to 1W at 70°C
Low ohmic shunt resistor which acts as a current sensor
Wide value range: R001 to R082
TE Connectivity TL3A series high power, low ohmic metal chip shunt resistors for current sensing applications. The TL3A series have a unique metal resistive element and barrier layers beneath the solder to prolong terminal life. TL3A’s are particularly suited to applications in the automotive industry for sensing in electric multiple units ( EMU’s ).
Series | RL3A |
Power At 70°C | 1 W |
Resistance Tolerance | ±1% |
Temperature Coefficient | ±75 ppm/°C |
Maximum Operating Voltage | √PR |
Overload Voltage (Maximum) | √5PR |
Operating Temperature °C | -65 → +170 |
SMT Format | 2512 |
Dimensions (LxWxT) mm | 6.4x3.2x0.6 |
Current Sense - Surface Mount
Bulk metal chip resistors
Low thermal e.m.f.
Virtually non-inductive
Marked with 3 digit resistance code
Mini reels are ideal for small batch production, development and R&D department
Suitable for automatic assembly on pick and place machinery
Specifications
Not what you’re looking for? Select the attributes you require, then click the button below
Resistance | 4mΩ | |
Package/Case | 2512 | |
Tolerance | ±1% | |
Power Rating | 1W | |
Temperature Coefficient | ±75ppm/°C | |
Technology | Metal Foil | |
Dimensions | 6.4 x 3.2 x 0.6mm | |
Length | 6.4mm | |
Depth | 3.2mm | |
Height | 0.6mm | |
Series | TLA3A | |
Minimum Operating Temperature | -65°C | |
Maximum Operating Temperature | +170°C | |
Case Style | Moulded | |
Maximum Temperature Coefficient | +75ppm/°C | |
Minimum Temperature Coefficient | -75ppm/°C |
For a Specification PDF Please CLICK HERE
Thank you for looking, if you have any questions please ask or call us.
Please see our other items for a wide range of Electronic components.