PROFESSIONAL (ESIP) PRACTICE EXAM NEWEST 2026
UPDATE — ACTUAL QUESTIONS & CORRECT ANSWERS |
ALREADY GRADED A+
Content covered (most tested areas): System design • Codes &
standards (NEC, IFC, NFPA 855) • Battery chemistries • Safety
& commissioning • Installation practices • Electrical
calculations • Inverters & PCS • Rapid shutdown • Grounding
& bonding • O&M • Troubleshooting • Documentation • AHJ
requirements • Fire safety • System performance
1. Which battery chemistry is most commonly used in residential
energy storage systems today?
A. Nickel-cadmium
B. Lead-acid flooded
C. Lithium-ion
D. Nickel-iron
Answer: Lithium-ion
Lithium-ion dominates due to high energy density, efficiency, long cycle
life, and reduced maintenance.
2. What NEC article primarily governs energy storage systems?
A. Article 690
B. Article 705
, C. Article 706
D. Article 480
Answer: Article 706
NEC Article 706 specifically addresses Energy Storage Systems
requirements.
3. The main function of a Battery Management System (BMS) is to:
A. Convert DC to AC
B. Monitor and protect battery cells
C. Provide system grounding
D. Increase voltage output
Answer: Monitor and protect battery cells
The BMS ensures safe operation by balancing cells, preventing
overcharge/discharge, and monitoring temperature.
4. What is the typical nominal voltage of a single lithium-ion cell?
A. 1.2 V
B. 2.0 V
C. 3.6–3.7 V
D. 12 V
Answer: 3.6–3.7 V
Most lithium-ion chemistries operate around this nominal voltage.
5. NFPA 855 primarily addresses:
A. PV module installation
, B. Energy storage system safety
C. Electrical grounding
D. Wind turbines
Answer: Energy storage system safety
NFPA 855 provides fire and safety requirements for ESS installations.
6. What is the primary hazard of thermal runaway?
A. Electrical shock
B. Reduced efficiency
C. Uncontrolled heat release and fire
D. Low voltage output
Answer: Uncontrolled heat release and fire
Thermal runaway can lead to fires or explosions in battery systems.
7. Round-trip efficiency refers to:
A. AC to DC conversion only
B. Energy lost during transmission
C. Energy returned compared to energy stored
D. Battery lifespan
Answer: Energy returned compared to energy stored
It measures system efficiency from charge to discharge cycle.
8. What device converts battery DC power into AC for home use?
A. Charge controller
B. Transformer
, C. Inverter
D. Combiner box
Answer: Inverter
Inverters convert stored DC energy into usable AC power.
9. A grid-interactive inverter can:
A. Operate only off-grid
B. Supply power only at night
C. Sync with utility grid
D. Store energy internally
Answer: Sync with utility grid
Grid-interactive inverters coordinate with utility frequency and voltage.
10. Rapid shutdown requirements are primarily found in NEC
Article:
A. 240
B. 690
C. 706
D. 110
Answer: 690
Article 690 addresses PV systems and rapid shutdown provisions.
11. What is depth of discharge (DoD)?
A. Battery voltage drop
B. Percentage of capacity used