EKS-3022 - Input/Output device

The EKS-3022 element is equipped with 2 parametric inputs (IN) and 2 outputs.

The EKS-3000 universal control elements are addressable components designed for:

  • control of automatic safety devices, fire protection devices,
  • control operation of the above-mentioned devices,
  • condition control of any equipment.

The EKS-3000 control element is designed to work on addressable lines/loops of POLON 3000 fire alarm control panels. The element is adapted to work inside and outside facilities.

Depending on the version, the EKS-3000 is equipped with parametric inputs, high-voltage inputs and outputs. The parametric (IN) inputs of the EKS-3000 allow connection of independent, potential-free NC or NO contacts.

The EKS-3000 high-voltage (IN HV) inputs allow to connect independent switches at (6 to 220) VDC or 230 VAC. The relay outputs of the EKS-3000 can be used for both 24 VDC (max 60 W) and 230 VAC (max 62.5 VA) voltage control.

Additionally, the EKS-3000 in the 3222P version has the ability to control high power loads (12 A at 230 VAC).

The EKS-3000 control elements are available in two configuration variants designated as:

  • EKS-3022 – equipped with 2 IN inputs and 2 outputs,
  • EKS-3222P – equipped with 2 IN HV inputs, 2 IN inputs, and 2 high-power outputs (12A/230V).
Specification:
  • Detection line operating voltage 16.5 VDC ÷ 24.6 VDC
  • Detection line current consumption <220 μA
  • Number of control inputs 2
  • Number of control outputs 2
  • Control Input Initiation potential-free contact NO or NC
  • "fail safe" functions yes
  • Frame IP rate IP 66
  • Operating temperature range from -40 °C to +85 °C
  • Dimensions 187 x 178 x 60 mm
  • Weight <0,5 kg
Name File type File name File size Download
EKS-3022 Declaration of Conformity Declaration of Conformity EKS-3022_DZ_UE_1_E398_2024.pdf 2.37 MB
EKS-3022 Declaration of Performance Declaration of Performance EKS-3022_DWU_1_E398_2024.pdf 5.06 MB
EKS-3022 Certificate of Constancy of Performance Certificates EKS-3022_1438-CPR-0876.pdf 3.21 MB