New
Gamesa Electric
Proteus PCS-E Inverter

Maximum efficiency
and compactness
for utility-scale energy
storage projects

Gamesa Electric Proteus PCS-E Battery Inverters

Maximum efficiency for utility-scale projects

better

High Round Trip Efficiency (RTE)

High efficiency that allows to improve the overall system RTE and LCoS.

Smart liquid/air cooling system that allows critical components to work at temperature level far below their limits, guaranteeing longer product lifespan and lower thermal losses.

Low power derating, high power capacity at 1500Vdc, wide operating temperature range.

grid

Grid connection

Four quadrant operation for full active and reactive power support to comply with the most demanding grid codes.

Weak grid and micro-grid configuration with a seamless transition and black start capability

Fast frequency response Synthetic inertia Grid forming in parallel operation with the grid.

thunder

Battery oriented

Safety centered design with instantaneous controls and monitoring.

Double power module topology for two independent battery connections allowing for much lower DC short-circuit currents and increased system availability.

Battery agnostic design to accommodate different battery technologies, up to 1500Vdc, including: li-ion, lead-acid, flow and others.

Coolbrid
cooling system

98.57%
Maximum
Efficiency

Coolbrid
Advanced hybrid liquid and air cooling system

Up to 5150 kVA at 850 Vrms

Standards/Directives(4)

  • IEC 62109-1
  • IEC 62920
  • IEC 60529
  • CEI 0-16; V2 2021-06
  • NEC 2020
  • NEMA 250-2014
  • Arrete
    IEC 62109-2
  • UL 62109-1
  • IEC 61727
  • Allegato A.68-208
  • CEA 2019
  • NFPA 70:2020
  • UTE C15-400
    IEC 61000-6-2/4
  • IEC 62116
  • NTS 631 v1.1 SENP, v2.1 SEPE
  • G99
  • Rule 14, Rule 21
  • IEE Std 929-2000
  • EirGrid V10:2020
  • IEEE 1547
  • IEC 61683
  • UL 1741-SB
  • UNE-EN 50541-2:2014
  • PRC 024-2
  • IEC 62477-1:2022
  • EN 55011
  • IEEE 519
  • CSA C22.2 No 107.1
  • 73/2020
  • CEC 2015
  • VDE-AR-N 4110 4120 2018

(1) At nominal AC voltage. Consult Gamesa Electric for other options
(2) Consult Gamesa Electric for a especific configuration
(3) Consult P-Q chart
(4) Up to 4,000m [13,123 ft] with derating as optional
(5) Consult Gamesa Electric for more details

Standards/Directives(4)

  • IEC 62109-1
  • IEC 62920
  • IEC 60529
  • CEI 0-16; V2 2021-06
  • NEC 2020
  • NEMA 250-2014
  • Arrete
  • IEC 62109-2
  • UL 62109-1
  • IEC 61727
  • Allegato A.68-208
  • CEA 2019
  • NFPA 70:2020
  • UTE C15-400
  • IEC 61000-6-2/4
  • IEC 62116 NTS 631 v1.1
  • SENP, v2.1 SEPE G99
  • Rule 14, Rule 21
  • IEE Std 929-2000
  • EirGrid V10:2020
  • IEEE 1547
  • IEC 61683
  • UL 1741-SB
  • UNE-EN 50541-2:2014
  • PRC 024-2
  • IEC 62477-1:2022
  • EN 55011
  • IEEE 519
  • CSA C22.2 No 107.1
  • 73/2020
  • CEC 2015
  • VDE-AR-N 4110 4120 2018

(1) At nominal AC voltage. Consult Gamesa Electric for other options
(2) Consult Gamesa Electric for a especific configuration
(3) Consult P-Q chart
(4) Up to 4,000m [13,123 ft] with derating as optional
(5) Consult Gamesa Electric for more details

Power Electronics

Do you need more information?

Our team is at your disposal