https://cablematic.com/en/products/terminator-dmx512-xlr-3-plug-120-ohms-XN091/
Terminator DMX512 XLR-3 plug 120 ohms
- DMX or DMX512 Terminator 120 Ohms.
- 3-pin male XLR connector that closes pins 2 and 3 with a resistance of 120 ohms.
- At the end of a DMX bus a terminator must go.
- DMX devices already have the option to perform the functions of terminator (last element of the bus), but in case of not having this function, it is necessary to connect a terminator to avoid errors of data transmission.
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- DMX or DMX512 Terminator 120 Ohms.
- 3-pin male XLR connector that closes pins 2 and 3 with a resistance of 120 ohms.
- At the end of a DMX bus a terminator must go.
- DMX devices already have the option to perform the functions of terminator (last element of the bus), but in case of not having this function, it is necessary to connect a terminator to avoid errors of data transmission.
More info
DMX or DMX512 Terminator 120 Ohms. 3-pin male XLR connector that closes pins 2 and 3 with a resistance of 120 ohms. At the end of a DMX bus a terminator must go. DMX devices already have the option to perform the functions of terminator (last element of the bus), but in case of not having this function, it is necessary to connect a terminator to avoid errors of data transmission.
- Gross Weight: 30 g
- Number of packages: 1
Technical terms
- Impedance
- XLR
- DMX512
- DMX512 or DMX
Impedance (Z) is the total opposition that a circuit offers to alternating current (AC) flow when a specific voltage is applied.
Unlike simple resistance, impedance is a complex quantity comprising resistance (the real part) and reactance (the imaginary part, representing inductive or capacitive effects). In the frequency domain, impedance is represented as a phasor, accounting for both magnitude and phase shift between voltage and current. In DC circuits, impedance reduces to pure resistance with zero phase angle.
| Parameter | Technical Spec |
|---|---|
| Symbol | Z |
| Unit | Ohm (Ω) |
Impedance management is critical in high-speed hardware design and signal integrity. In modern PCB manufacturing, controlled impedance ensures that high-frequency signals reach their destination without reflections, which is vital for PCIe or DDR5 performance.
Complex Domain Analysis
Mathematical modeling of impedance using the j-operator allows engineers to optimize filter performance and resonance characteristics in electronic systems.
Key Advantages
- Maximum power transfer through impedance matching.
- Minimized signal reflections in high-frequency transmission lines.
- Improved electromagnetic compatibility (EMC).
Note: Impedance is the cornerstone of modern AC circuit theory and high-frequency design.

