ARCUS Systems

PHOENIX GEN

Grid ↔ Generator Synchronizing Trainer
OFFLINE
FREE RUN
See the Energy. Time the Moment. Observe → Predict → Act → Review
Grid
0 V
0.00 Hz
Generator
0 V
0.00 Hz
Breaker
OPEN
Δf 0.000 Hz · Δφ 0.0°
Power
0 kW
0 A · PF 1.00
Stress
0%
Low

Simulation Control

Start / Run
Sync / Breaker
Stress / Export

Sequence: SIM START → GRID START → GEN START → tune or AUTO MATCH → close at 12 o’clock.
Operator Guidance Panel below will tell you the exact next action and why.

OPERATOR GUIDANCE • NEXT ACTION

Waiting for simulation start…

Governor / AVR

Freq setpoint60.00 Hz
Voltage setpoint13.80 kV
Slip
0.000 Hz
Phase
0.0°
Reactive
0.00 MVAr
Apparent
0 kVA

Fault Injection

Scenario State

Status
INACTIVE
Armed
NO
Injected
NO
Result
Elapsed
0.0 s
Type
Stable

Synchroscope

ΔV
0 V
Δf
0.000 Hz
Δφ
0.0°
Temp
25.0 °C
OFFLINE
Clockwise needle means the generator is fast. Close just before 12 o’clock.
NOT READY
Waiting for grid/gen

One-Line / Power Flow

GRID BUSDE-ENERGIZED
GRID[ OPEN ]GEN
GEN BUSOFFLINE

Live Trend

Fault
Fault Clear
Close Cmd
Closed
Trip
Scenario
5 Hz trend, capped for mobile. Tracks grid Hz, gen Hz, current, and kW.

Sequence of Events

Timing Logic

Format: one lane per line. Example: GRID:111100001111. Use 1, 0, or . to hold the previous state.

Timing Diagram

Live Grid Overlay

Mode
Demo
Source
Offline Ghost Frequency
Frequency
60.00 Hz
Net Load
Updated

When opened offline or from a local file, Phoenix uses ghost‑frequency mode so training remains available without internet access. The ghost grid pointer is a simulated training aid — it does not represent a real system measurement.

Training Use Notes

1. This overlay provides a reference grid frequency and net-load context for the simulator.
2. The overlay is informational. Safe synchronizing still depends on simulator conditions.
3. Use this page to compare simulated machine behavior against system context.

Mission Brief & Playbook

Use this playbook before each drill. It explains the objective, main hazard, success condition, and what to avoid.

Operator Notes

Notes persist in your browser for this session only.

Operator Progression & Unlocks

Track training performance across sessions. Unlocks add more observability and review tools. They do not change core simulator physics.

Total Progress

Unlocked Modules

Best Scenario Scores

Mechanical Rotor / Stator View

Physical machine training view. Mechanical deviation is shown only on shaft, bearings, coupling, rotor body motion, and housing stability. Electrical deviation is shown only on stator phase groups, rotor excitation, pole intensity, and air-gap coupling. Rotor rotation never stops after sync; it stabilizes at synchronous speed.

GEN Hz
--
RPM
--
SLIP
--
MODE
--
BREAKER
--
Mechanical view: rotor speed, synchronous lock quality, excitation response, shaft torsion, bearing load, coupling stress, and machine stability.
Magnetic Field / Sync View — training abstraction.
This lower panel remains the electromagnetic relationship view. It shows rotor field, stator pickup zones, slip, phase error, and flux coupling. This pass does not change its role or core drawing logic.
ELEC DEV
--
MECH DEV
--
EXCITER
--
THERMAL
--
SHAFT
--
BEARING
--

Instructor Mode & Challenge Settings

Enable higher difficulty modes and distractions. Tightened sync windows and extra stressors can help you master the system. Use caution – these settings increase the likelihood of trips if you are not prepared.

Difficulty & Modes

Instructor Notes

Notes persist for this session only. In a full deployment, instructor notes could be shared with trainees.

Concept Modules (Relay/SPICE Labs)

Relay Lab and SPICE modelling are concept modules in v10 dev. They are visible for planning and training structure only; they do not drive simulator physics yet.