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Chapter 2: Rear Panels
1. The Load 4 circuit breaker will trip in the event the load exceeds the power
rating.
2. Load 4: 120V output receptacles (3 - 5-15/20R).
3. The Load 3 circuit breaker will trip in the event the load exceeds the power
rating.
4. Load 3: 120V output receptacles (3 - 5-15/20R).
5. The Load 2 circuit breaker will trip in the event the load exceeds the power
rating.
6. Load 2: 208V output receptacle (1 - L6-20R). NOTE: The default output
voltage is 208V. 240V is available, but must be configured at the factory.
7. The Load 1 circuit breaker will trip in the event the load exceeds the power
rating.
8. Load 1: 208V output receptacle (1 - L6-30R).
9. The input circuit breaker will trip in the event the load exceeds the ED-
XFR's power rating.
10. The input power cord is for connecting to the output terminal block on the
UPS.
11. ED-XFR's circuit breaker will trip in the event that the ED-XFR becomes
overheated.
12. Input voltage selection switch (208 / 240V). The default setting is 208V.
1. The Load 4 circuit breaker will trip in the event the load exceeds the power
rating.
2. Load 4: 120V output receptacles (4 - 5-15/20R).
3. The Load 2 circuit breaker will trip in the event the load exceeds the power
rating.
4. Load 2: 120V output receptacles (4 - 5-15/20R).
5. The Load 2 circuit breaker will trip in the event the load exceeds the power
rating.
6. Load 3: 208V output receptacle (1 - L6-20R).
7. The Load 1 circuit breaker will trip in the event the load exceeds the power
rating.
8. Load 1: 208V output receptacle (1 - L6-30R).
9. The input circuit breaker will trip in the event the load exceeds the ED-
XFR's power rating.
10. ED-XFR's circuit breaker will trip in the event that the ED-XFR becomes
overheated.
11. Input terminal block (208V / 240V) is for connecting the input power cable
that comes from the output terminal block of the UPS.
12. Output terminal block for optional hardwiring the load. The available output
voltages are 120V / 208V / 240V. NOTE: The two 120V outputs are ind-
ividual 5KVA outputs and they CANNOT be paralleled.